TWI284746B - High heat resistant reflective coating, and laminated body using the reflective coating - Google Patents
High heat resistant reflective coating, and laminated body using the reflective coating Download PDFInfo
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- TWI284746B TWI284746B TW090107568A TW90107568A TWI284746B TW I284746 B TWI284746 B TW I284746B TW 090107568 A TW090107568 A TW 090107568A TW 90107568 A TW90107568 A TW 90107568A TW I284746 B TWI284746 B TW I284746B
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- G—PHYSICS
- G02—OPTICS
- G02F—OPTICAL DEVICES OR ARRANGEMENTS FOR THE CONTROL OF LIGHT BY MODIFICATION OF THE OPTICAL PROPERTIES OF THE MEDIA OF THE ELEMENTS INVOLVED THEREIN; NON-LINEAR OPTICS; FREQUENCY-CHANGING OF LIGHT; OPTICAL LOGIC ELEMENTS; OPTICAL ANALOGUE/DIGITAL CONVERTERS
- G02F1/00—Devices or arrangements for the control of the intensity, colour, phase, polarisation or direction of light arriving from an independent light source, e.g. switching, gating or modulating; Non-linear optics
- G02F1/01—Devices or arrangements for the control of the intensity, colour, phase, polarisation or direction of light arriving from an independent light source, e.g. switching, gating or modulating; Non-linear optics for the control of the intensity, phase, polarisation or colour
- G02F1/13—Devices or arrangements for the control of the intensity, colour, phase, polarisation or direction of light arriving from an independent light source, e.g. switching, gating or modulating; Non-linear optics for the control of the intensity, phase, polarisation or colour based on liquid crystals, e.g. single liquid crystal display cells
- G02F1/133—Constructional arrangements; Operation of liquid crystal cells; Circuit arrangements
- G02F1/1333—Constructional arrangements; Manufacturing methods
- G02F1/1343—Electrodes
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- G—PHYSICS
- G02—OPTICS
- G02B—OPTICAL ELEMENTS, SYSTEMS OR APPARATUS
- G02B5/00—Optical elements other than lenses
- G02B5/08—Mirrors
- G02B5/0816—Multilayer mirrors, i.e. having two or more reflecting layers
- G02B5/085—Multilayer mirrors, i.e. having two or more reflecting layers at least one of the reflecting layers comprising metal
- G02B5/0858—Multilayer mirrors, i.e. having two or more reflecting layers at least one of the reflecting layers comprising metal the reflecting layers comprising a single metallic layer with one or more dielectric layers
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- G—PHYSICS
- G02—OPTICS
- G02F—OPTICAL DEVICES OR ARRANGEMENTS FOR THE CONTROL OF LIGHT BY MODIFICATION OF THE OPTICAL PROPERTIES OF THE MEDIA OF THE ELEMENTS INVOLVED THEREIN; NON-LINEAR OPTICS; FREQUENCY-CHANGING OF LIGHT; OPTICAL LOGIC ELEMENTS; OPTICAL ANALOGUE/DIGITAL CONVERTERS
- G02F1/00—Devices or arrangements for the control of the intensity, colour, phase, polarisation or direction of light arriving from an independent light source, e.g. switching, gating or modulating; Non-linear optics
- G02F1/01—Devices or arrangements for the control of the intensity, colour, phase, polarisation or direction of light arriving from an independent light source, e.g. switching, gating or modulating; Non-linear optics for the control of the intensity, phase, polarisation or colour
- G02F1/13—Devices or arrangements for the control of the intensity, colour, phase, polarisation or direction of light arriving from an independent light source, e.g. switching, gating or modulating; Non-linear optics for the control of the intensity, phase, polarisation or colour based on liquid crystals, e.g. single liquid crystal display cells
- G02F1/133—Constructional arrangements; Operation of liquid crystal cells; Circuit arrangements
- G02F1/1333—Constructional arrangements; Manufacturing methods
- G02F1/1335—Structural association of cells with optical devices, e.g. polarisers or reflectors
- G02F1/133553—Reflecting elements
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- G—PHYSICS
- G02—OPTICS
- G02F—OPTICAL DEVICES OR ARRANGEMENTS FOR THE CONTROL OF LIGHT BY MODIFICATION OF THE OPTICAL PROPERTIES OF THE MEDIA OF THE ELEMENTS INVOLVED THEREIN; NON-LINEAR OPTICS; FREQUENCY-CHANGING OF LIGHT; OPTICAL LOGIC ELEMENTS; OPTICAL ANALOGUE/DIGITAL CONVERTERS
- G02F2201/00—Constructional arrangements not provided for in groups G02F1/00 - G02F7/00
- G02F2201/34—Constructional arrangements not provided for in groups G02F1/00 - G02F7/00 reflector
Abstract
Description
A7 B7 1284746 五、發明說明(ί ) 發明背景說明 發明領域 本發明係關於一種高耐熱性反射層,用以生產液晶顯 示裝置的反射體或反射性接線電極、用於建築玻璃 (building glass)、層積體(laminate)或液晶顯示裝置的 反射層。更具體而言,本發明係關於一種具有高反射率的 銀合金反射層、由此反射層所形成的層積體、以及具有此 反射層或層積層的液晶顯示裝置。 習知技術說明 許多材料被用於反射層,包括用於生產液晶顯示裝置 之反射體或反射性接線電極、以及用於建築玻璃、反射紅 外線以及熱輻射線的反射層。另外,這些反射層的層積體 被開發以提高反射率(reflection index)以及改進這些產 品的功能。這些具有改進特性之反射層的產品,已經被用 於各種領域以及各種應用。 反射層的典型材料是鋁、包含鋁作爲主要成分的鋁合 金、銀、包含銀做爲主要成分的銀合金(例如銀-鈀)、以 及金合金。由這些材料所形成的反射層於光學波長400至 4000nm範圍,包括可見以及紅外區,具有高反射率。 鋁具有高反射率,且非常便宜與實用。鋁和鋁合金通 常用於反射式液晶顯示裝置的反射體以及反射性接線電 極,這樣的液晶顯示裝置是用於可攜式的終端裝置,例如 40NDA200104TW; P1P2000284TW 1 ^紙張尺度適用中國國家標準(CNS)A4規格(210 X 297公爱) (請先閱讀背面之注意事項寫本頁) 寫太 奸-------- 經濟部智慧財產局員工消費合作社印製 1284746 經濟部智慧財產局員工消費合作社印製 A7 B7___ 五、發明說明(工) 行動電話。當使用鋁合金時,與純鋁有關的問題,例如層 的不規則性,稱爲山丘,以及反射體與反射性接線電極表 面的惡化可以被克服。當反射體與反射性接線電極的反射 率是高的時候,送到光源的電源被降低,而且液晶顯示裝 置的亮度增加大約20%。 銀於許多金屬元素中,具有在波長400至4000nm範圍 內最高的反射率,因此,銀具有用於反射層的良好特性。 於太陽所放射的可見光、紅外線以及紫外線中,鋁、 鋁合金、銀以及銀合金傳送可見光與反射紅外線和熱射 線。可見光直接相關於照明。紅外線和熱射線的反射有用 於防止外界的光線進入房間,因此,上述材料被用於建築 玻璃,例如窗玻璃。 然而,傳統由鋁、鋁合金、銀、包括銀-鈀的銀合金、 金、金合金所形成的反射層、以及由此反射層所形成的反 射體、反射性接線電極、以及建築玻璃,具有下列問題。 鋁以及鋁合金化學上並不穩定,一由有機材料所組成 的液態抗蝕劑被施加於鋁層或鋁合金層,且於其上形成一 圖案。當圖案化的層以鹼性溶液淸洗以去除抗蝕劑時,層 的表面可能變成粗糙,而且可能降低表面對於光的反射率 或者散射。此外,當使用樹脂基底例如聚2-甲基丙烯酸甲 酯 PMMA (polymethylmethacrylate)以及政氧院聚合物 (silicone)時,鋁可能與樹脂基底所產生的氣體反應。鋁 只能被用於產生極少氣體的基底,因此限制基底可用的材 料。當包含鋁的反射層與樹脂基底於使用中接觸時,會有 40NDA200104TW; P1P2000284TW 2 本紙張尺度適用中國國家標準(CNS)A4規格(210 X 297公釐) 零裝--------訂-------- (請先閱讀背面之注意事^^填寫本頁) 1284746 A7 B7 五、發明說明(4 ) 銀或銀合金的反射率於可見光區域,也就是,400至 800nm之間的光波長區域,是最高的。然而,於光波長低 於450nm的區域,銀的吸收性與吸收係數增加,而且黃色 反射光的強度增加,因此,由包含銀之反射層所形成的液 晶顯不裝置、以及包含此液晶顯不裝置的可攜式終端裝置 的外表差,而且會隨著時間而變黃。 , 再者,銀於耐天氣性上並不好,當被置於空氣中時, 銀會吸收空氣中的濕氣(特別是水)並且變成黃色。隨著 含銀之反射層形成於玻璃基底或樹脂基底的時間變長,銀 的高反射率特性就被削弱了。 銀鈀合金,包括銀以及1-3重量百分比鈀、銀金合金, 包括銀以及1-10重量百分比金、以及銀釕合金,包括銀以 及1-10重量百分比釕’被熟知是爲具有筒抗腐触性以及高 耐熱性的二元銀合金。然而,當於高溫以及高溼度情況下 進行防水測試時,即使是於由這些銀合金所形成的合金層 中,也會發現到黑色的污點。於光學顯微鏡下,確認黑色 污點是變黑的部分,且於鈀達到有關於氫溶解的固體溶液 極限之後變成突出。當做爲建築玻璃時,上述二元合金於 濕氣區域中、或者當曝露於凝結的水滴時,缺乏長期的穩 度性。 銀金合金被熟知是爲穩定的合金,於其中銀和金被完 美地以固體狀態混合。銀金合金對於鹵素元素例如氯的耐 性並不是很好,銀金合金會與測試當中導入之空氣中的氯 或碘結合,然後產生黑色污點。 40NDA200104TW; P1P2000284TW 4 本紙張尺度適用中國國家標準(CNS)A4規格(210 X 297公釐) (請先閱讀背面之注意* —— 事項 寫本頁) 奸--------- 經濟部智慧財產局員工消費合作社印製 1284746 A7 B7 五、發明說明(S ) 除了鋁和銀,金的反射率也是高的。然而,金非常貴 並且使用於液晶顯示裝置的反射體或建築玻璃的反射層並 不實際。 發明槪述 本發明的一目的是提供一反射層,其維持高光學反射 率’迨是金的特性’以及具有改進的材料穩定度,包括耐 熱性以及抗氣候性。 本發明的另一目的是提供一層積體,包括一覆蓋層, 使得層積層維持一包含金之反射層的高光學反射率、並且 於低波長具有較低的吸收率。 本發明的另一目的是提供一層積層,包括一基膜,其 提昇包含銀之反射層與基底之間的附著性。 本發明的更一目的是提供一具有上述反射層或層積層 之液晶顯示裝置。 本發明的一反射層包含銀,作爲主要成分;一第一元 素,佔0.1至3.0重量百分比,且係選自包含金、鈀以及 釕之群組;以及一第二元素,佔〇·1至3.0重量百分比, 且係選自包含銅、鈦、鉻、鉬、鉬、鎳、鋁、鈮、金、鈀 以及釕之群組;第二元素不同於第一元素。 一層積層包含一基底以及一沉積於基底上之反射層, 反射層包含:銀,作爲主要成分;一第一元素,佔0.1至 3.0重量百分比,且係選自包含金、鈀以及釕之群組;以 40NDA200104TW; P1P2000284TW 5 本紙張尺度適用中國國家標準(CNS)A4規格(210 X 297公釐) (請先閱讀背面之注意事項寫本頁) tr>--------- 經濟部智慧財產局員工消費合作社印製 1284746 A7 B7 五、發明說明(ο ) i) 銀,作爲主要成分; ii) 一第一元素,佔0.1至3.0重量百分比,且係選自 包含金、鈀以及釕之群組;以及 iii) 一第二元素,佔〇·1至3·0重量百分比,且係選自 包含銅、鈦、鉻、鉅、鉬、鎳、鋁、鈮、金、鈀以及釕之 群組,其中第二元素不同於第一元素。 將金、鈀或釕加至銀,改善銀在高溫和高溼度條件下 的耐氣候性。主要成分銀,具有非常高的熱傳導性、容易 吸收熱、並且在原子層次很快地達到熱飽和。金、鈀及釕 降低銀的熱傳導性,並且抑制原子間的移動。金、鈀及釕 形成整個固體溶液。金、鈀及釕的含量較佳者係從0.7至 2.3重量百分比,最佳者係0.9重量百分比。 銅、鈦、鉻、鉅、鉬、鎳、鋁、或鈮,金、鈀及釕的 其中之二或更多,可以包含於反射層以提高反射層的耐熱 性及耐氣候性。 於本發明的反射層中,相較於純鋁及純銀的反射層, 表面粒子的移動不好。換句話說,本發明的反射層之中的 銀於加熱時的自擴散能量(self-diffusion energy)降低, 因此,本發明的反射層抵抗自擴散,而這改進反射層的耐 熱性。反射層於製造過程或者於一特定的氣候條件下被加 熱。於本發明的反射層中,反射率的降低被防止了。特定 而言,當反射層被加熱超過100°C,反射層中由於自擴散 所產生的視覺改變(變成模糊的白色)、以及由於表面變形 所產生的光吸收增加,被防止了。 40NDA200104TW; P1P2000284TW : ^紙張尺度適用中國國家標準(CNS)A4規格(210 X 297公釐) " ' ____________ (請先閱讀背面之注意事項 寫本頁)BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a highly heat-resistant reflective layer for producing a reflector or a reflective wiring electrode of a liquid crystal display device, for building glass, A laminate or a reflective layer of a liquid crystal display device. More specifically, the present invention relates to a silver alloy reflective layer having high reflectance, a laminate formed by the reflective layer, and a liquid crystal display device having the reflective layer or laminated layer. Description of the Prior Art Many materials are used for the reflective layer, including reflectors or reflective wiring electrodes for producing liquid crystal display devices, and reflective layers for architectural glass, reflective infrared rays, and thermal radiation. In addition, laminates of these reflective layers have been developed to increase the reflectance index and to improve the function of these products. These products with improved reflective layers have been used in various fields and in various applications. A typical material of the reflective layer is aluminum, aluminum alloy containing aluminum as a main component, silver, a silver alloy containing silver as a main component (e.g., silver-palladium), and a gold alloy. The reflective layer formed of these materials has a high reflectance at optical wavelengths ranging from 400 to 4000 nm, including visible and infrared regions. Aluminum has high reflectivity and is very inexpensive and practical. Aluminum and aluminum alloys are commonly used for reflectors of reflective liquid crystal display devices and reflective wiring electrodes. Such liquid crystal display devices are used for portable terminal devices, such as 40NDA200104TW; P1P2000284TW 1 ^paper scale is applicable to Chinese national standards (CNS) ) A4 specification (210 X 297 public) (Please read the note on the back to write this page) Write a traitor --------- Ministry of Economic Affairs Intellectual Property Bureau employee consumption cooperative printed 1284746 Ministry of Economic Affairs Intellectual Property Bureau staff Consumer Cooperatives Print A7 B7___ V. Invention Description (Work) Mobile Phone. When aluminum alloys are used, problems associated with pure aluminum, such as layer irregularities, referred to as hills, and deterioration of the reflector and reflective wiring electrode surfaces can be overcome. When the reflectance of the reflector and the reflective wiring electrode is high, the power supplied to the light source is lowered, and the brightness of the liquid crystal display device is increased by about 20%. Silver has the highest reflectance in many metal elements in the range of wavelengths of 400 to 4000 nm, and therefore, silver has good characteristics for the reflective layer. Among the visible, infrared, and ultraviolet rays emitted by the sun, aluminum, aluminum alloys, silver, and silver alloys transmit visible light and reflect infrared rays and heat rays. Visible light is directly related to illumination. The reflection of infrared rays and heat rays is useful for preventing outside light from entering the room, and therefore, the above materials are used for architectural glass such as window glass. However, conventionally, a reflective layer formed of aluminum, an aluminum alloy, silver, a silver alloy including silver-palladium, gold, a gold alloy, and a reflector formed of the reflective layer, a reflective wiring electrode, and an architectural glass have The following questions. Aluminum and aluminum alloys are chemically unstable, and a liquid resist composed of an organic material is applied to an aluminum layer or an aluminum alloy layer, and a pattern is formed thereon. When the patterned layer is rinsed with an alkaline solution to remove the resist, the surface of the layer may become rough and may reduce the reflectance or scattering of the surface to light. Further, when a resin substrate such as polymethylmethacrylate (PMMA) and a silicone polymer are used, aluminum may react with a gas generated by the resin substrate. Aluminum can only be used to produce a substrate with very little gas, thus limiting the materials available to the substrate. When the reflective layer containing aluminum is in contact with the resin substrate in use, there will be 40NDA200104TW; P1P2000284TW 2 This paper size is applicable to China National Standard (CNS) A4 specification (210 X 297 mm). Order -------- (Please read the note on the back ^^ fill this page) 1284746 A7 B7 V. Description of invention (4) The reflectivity of silver or silver alloy in the visible region, that is, 400 to 800 nm The area between the wavelengths of light is the highest. However, in a region where the wavelength of light is lower than 450 nm, the absorption and absorption coefficient of silver increase, and the intensity of yellow reflected light increases, and therefore, a liquid crystal display device formed of a reflective layer containing silver, and a liquid crystal display device The portable terminal device of the device has a poor appearance and turns yellow with time. Furthermore, silver is not good in weather resistance. When placed in the air, silver absorbs moisture (especially water) in the air and turns yellow. As the silver-containing reflective layer is formed on the glass substrate or the resin substrate for a long time, the high reflectance characteristics of silver are impaired. Silver palladium alloy, including silver and 1-3 weight percent palladium, silver gold alloy, including silver and 1-10 weight percent gold, and silver iridium alloy, including silver and 1-10 weight percent 钌 'is known to have a tubular resistance A binary silver alloy that is resistant to corrosion and high heat resistance. However, when the waterproof test is carried out under high temperature and high humidity, even in the alloy layer formed of these silver alloys, black stains are found. Under an optical microscope, it was confirmed that the black stain was a blackened portion, and became prominent after the palladium reached the limit of the solid solution with respect to hydrogen dissolution. When used as architectural glass, the above binary alloy lacks long-term stability in the moisture region or when exposed to condensed water droplets. Silver-gold alloys are known to be stable alloys in which silver and gold are perfectly mixed in a solid state. Silver-gold alloys are not very resistant to halogen elements such as chlorine, which combine with chlorine or iodine in the air introduced during the test to produce black stains. 40NDA200104TW; P1P2000284TW 4 This paper scale applies to China National Standard (CNS) A4 specification (210 X 297 mm) (please read the note on the back* - write this page) Rape--------- Ministry of Economic Affairs Intellectual Property Bureau employee consumption cooperative printed 1284746 A7 B7 V. Invention Description (S) In addition to aluminum and silver, the reflectivity of gold is also high. However, gold is very expensive and it is not practical to use a reflector of a liquid crystal display device or a reflective layer of architectural glass. SUMMARY OF THE INVENTION It is an object of the present invention to provide a reflective layer that maintains high optical reflectivity '迨 is a property of gold' and has improved material stability, including heat resistance and weather resistance. Another object of the present invention is to provide a laminate comprising a cover layer such that the laminate maintains a high optical reflectivity of a reflective layer comprising gold and a lower absorbance at low wavelengths. Another object of the present invention is to provide a laminate comprising a base film which enhances adhesion between a reflective layer comprising silver and a substrate. A further object of the present invention is to provide a liquid crystal display device having the above reflective layer or laminated layer. A reflective layer of the present invention comprises silver as a main component; a first element, which is 0.1 to 3.0% by weight, and is selected from the group consisting of gold, palladium and rhodium; and a second element, which constitutes 〇·1 to 3.0 weight percent, and is selected from the group consisting of copper, titanium, chromium, molybdenum, molybdenum, nickel, aluminum, rhodium, gold, palladium, and rhodium; the second element is different from the first element. The first layer comprises a substrate and a reflective layer deposited on the substrate, the reflective layer comprising: silver as a main component; a first element, 0.1 to 3.0% by weight, and selected from the group consisting of gold, palladium and rhodium ; 40NDA200104TW; P1P2000284TW 5 This paper scale applies to China National Standard (CNS) A4 specification (210 X 297 mm) (Please read the note on the back to write this page) tr>--------- Ministry of Economic Affairs Intellectual Property Office Staff Consumer Cooperative Printed 1284746 A7 B7 V. Invention Description (ο ) i) Silver as a main component; ii) A first element, 0.1 to 3.0% by weight, and selected from gold, palladium and rhodium And iii) a second element, 〇1 to 3.0% by weight, and selected from the group consisting of copper, titanium, chromium, giant, molybdenum, nickel, aluminum, lanthanum, gold, palladium, and lanthanum A group in which the second element is different from the first element. Add gold, palladium or rhodium to silver to improve the weatherability of silver under high temperature and high humidity conditions. The main component, silver, has a very high thermal conductivity, absorbs heat easily, and quickly reaches thermal saturation at the atomic level. Gold, palladium and rhodium reduce the thermal conductivity of silver and inhibit the movement between atoms. Gold, palladium and rhodium form the entire solid solution. The content of gold, palladium and rhodium is preferably from 0.7 to 2.3% by weight, most preferably 0.9% by weight. Copper, titanium, chromium, giant, molybdenum, nickel, aluminum, or rhenium, two or more of gold, palladium, and rhodium may be included in the reflective layer to improve the heat resistance and weather resistance of the reflective layer. In the reflective layer of the present invention, the movement of the surface particles is not good compared to the reflective layers of pure aluminum and pure silver. In other words, the self-diffusion energy of silver in the reflective layer of the present invention is lowered upon heating, and therefore, the reflective layer of the present invention resists self-diffusion, which improves the heat resistance of the reflective layer. The reflective layer is heated during the manufacturing process or under a specific climatic condition. In the reflective layer of the present invention, the decrease in reflectance is prevented. In particular, when the reflective layer is heated by more than 100 ° C, the visual change (into the blurred white) due to self-diffusion in the reflective layer, and the increase in light absorption due to surface deformation are prevented. 40NDA200104TW; P1P2000284TW : ^The paper size applies to the Chinese National Standard (CNS) A4 specification (210 X 297 mm) " ' ____________ (please read the back note first)
* V •ϋ ϋ 1 §m§ IB-1 1 J,J I mmMMm —i «1 i^i I 經濟部智慧財產局員工消費合作社印制衣 1284746 A7 B7 五、發明說明(u) 如圖1所示,一可攜式終端裝置1包括一液晶顯不裝 置2。液晶顯示裝置2是由一反射體位於依序層積之下玻 璃基底、彩色濾片、極化層、液晶層、極化層、透明導電 層、以及上玻璃基底上所形成。本發明的層積體,其係作 爲此反射體,被保護不受彩色濾片製造過程所產生的鹼性 材料所破壞。此層積體比純鋁或鋁合金的反射體還具有較 高的反射率以及較低的光學吸收性,且具有此層積體的液 晶顯示裝置2遭受較少的光學損失。具有本發明層積體之 液晶顯示裝置2的亮度,比具有純鋁或鋁合金反射體之液 晶顯示裝置的亮度還要高。具有這樣液晶顯示裝置2的可 攜式終端裝置1具有改善的顯示,因此,產品的品質更佳 增進。 實施例 比較實施例 從二元銀合金產生銀合金反射層,二元表示二個元 素,也就是,銀做爲主要成分,以及金、鈀(Pd)或釕(Ru)。 金、鈀或釕的含量是0.1-4.0重量百分比。 首先,安裝一銀標靶以及鈀標靶於一磁電管濺鍍裝置 中。至銀及鈀標靶的放電控制於特定的無線電頻率交流 電。氬氣選擇性地設定在0.1至3.0帕的範圍內。這二個 金屬元素同時被濺鍍以形成二元銀合金層,其包含鈀於數 個不同的階層。同時也產生包含金或釕於數個不同階層的 40NDA200104TW; P1P2000284TW 11 本紙張尺度適用中國國家標準(CNS)A4規格(210 X 297公釐) (請先閱讀背面之注意· ----- 事項me寫本頁) --r ϋ ϋ 1 ϋ ϋ 1 I"-、 —i ϋ 1 ^1 ^1 - 經濟部智慧財產局員工消費合作社印製 1284746* V •ϋ ϋ 1 §m§ IB-1 1 J,JI mmMMm —i «1 i^i I Ministry of Economic Affairs Intellectual Property Bureau Staff Consumer Cooperative Printed Clothing 1284746 A7 B7 V. Invention Description (u) As shown in Figure 1 As shown, a portable terminal device 1 includes a liquid crystal display device 2. The liquid crystal display device 2 is formed by a reflector on a glass substrate, a color filter, a polarizing layer, a liquid crystal layer, a polarizing layer, a transparent conductive layer, and an upper glass substrate which are sequentially laminated. The laminate of the present invention, which is a reflector for this purpose, is protected from the alkaline material produced by the color filter manufacturing process. This laminate also has a higher reflectance and a lower optical absorbance than a reflector of pure aluminum or aluminum alloy, and the liquid crystal display device 2 having this laminate suffers less optical loss. The brightness of the liquid crystal display device 2 having the laminate of the present invention is higher than that of the liquid crystal display device having a pure aluminum or aluminum alloy reflector. The portable terminal device 1 having such a liquid crystal display device 2 has an improved display, and therefore, the quality of the product is further improved. EXAMPLES Comparative Example A silver alloy reflective layer was produced from a binary silver alloy, and binary means two elements, that is, silver as a main component, and gold, palladium (Pd) or ruthenium (Ru). The content of gold, palladium or rhodium is from 0.1 to 4.0% by weight. First, a silver target and a palladium target are mounted in a magnetron sputtering apparatus. The discharge to the silver and palladium targets is controlled to a specific radio frequency alternating current. Argon gas is selectively set in the range of 0.1 to 3.0 Pa. These two metallic elements are simultaneously sputtered to form a binary silver alloy layer comprising palladium in several different layers. At the same time, it also produces 40NDA200104TW containing gold or several different classes; P1P2000284TW 11 This paper scale is applicable to China National Standard (CNS) A4 specification (210 X 297 mm) (Please read the note on the back first ---- ---- Me write this page) --r ϋ ϋ 1 ϋ ϋ 1 I"-, —i ϋ 1 ^1 ^1 - Ministry of Economic Affairs Intellectual Property Bureau Staff Consumer Cooperative Printed 1284746
五、發明說明(\ι) 銀合金層。 石英基底,大小爲100mmxl00mmxl.lt,用來做爲基 底’濺鍍過程中基底的溫度爲室溫(大約25°C )。使用蠢 氣做爲唯一的濺鍍氣體於一高度真空氣壓中,最終真空度 爲3xl〇E-6帕,銀合金層沉積於此石英基底上使得層的厚 度爲20nm。 之所以於高度真空氣壓下沉積銀合金層的原因是防止 不純的氣體停留於層中使得層變緊密。因此,可以確保所 想要的銀合金材料特性。 所產生的銀合金層保持於一熱板上大約二小時,然後 觀察層,檢查是否有視覺外觀上的改變(變成模糊(dull) 白色)以及何時發生視覺改變。熱板以每分鐘20°C的升溫 速率升高至250°C,同時檢查加熱前與加熱後銀合金層的 反射率,結果顯示於表1。 (請先閱讀背面之注意事 項寫丄 寫本頁)V. Description of the invention (\ι) Silver alloy layer. The quartz substrate, having a size of 100 mm x 100 mm x 1. lt, is used as the base substrate. The temperature of the substrate during the sputtering process is room temperature (about 25 ° C). The stupid gas was used as the sole sputtering gas in a high vacuum atmosphere with a final vacuum of 3xl 〇E-6 Pa, and a silver alloy layer was deposited on the quartz substrate such that the layer had a thickness of 20 nm. The reason why the silver alloy layer is deposited under a high vacuum pressure is to prevent the impure gas from staying in the layer to make the layer tight. Therefore, the desired properties of the silver alloy material can be ensured. The resulting silver alloy layer was held on a hot plate for about two hours, and then the layers were observed to check for visual appearance changes (dull white) and when visual changes occurred. The hot plate was raised to 250 ° C at a temperature increase rate of 20 ° C per minute, and the reflectance of the silver alloy layer before and after heating was examined. The results are shown in Table 1. (Please read the notes on the back and write this page)
--τν • ·ϋ ·ϋ ϋ ϋ ϋ ·ϋ 2rJ0 ϋ 1 a— 1 aBBl 1 mmmmm I 經濟部智慧財產局員工消費合作社印製 表1 材料組成分 (wt%) 於250°C加熱之後,層 的表面狀態 發生視 覺改變 的時間 加熱前後反射 率的變化 (波長 800 nm) Ag 模糊的白色於表面上 100°C -25 % Ag99.9Pd0.1 模糊的白色於表面上 100°C -22 % Ag99.5Pd0.5 模糊的白色於表面上 100°C -22 % Ag99.0Pdl.0 模糊的白色於表面上 120°c -21 % Ag98.5Pdl.5 模糊的白色於表面上 120°C -21 % Ag98.0Pd2.0 模糊的白色於表面上 130°C -20 % Ag97_5Pd2.5 模糊的白色在中間部份 150°C -7.4% (測量未--τν • ·ϋ ·ϋ ϋ ϋ ϋ ·ϋ 2rJ0 ϋ 1 a— 1 aBBl 1 mmmmm I Ministry of Economic Affairs Intellectual Property Bureau Staff Consumer Cooperative Printed Table 1 Material Composition (wt%) After heating at 250 °C, layer The surface state changes visually before and after heating. The change in reflectance (wavelength 800 nm) Ag The blur white is 100 °C -25 % Ag99.9Pd0.1 on the surface. The blurred white is 100 °C on the surface. -22 % Ag99 .5Pd0.5 Blurred white on the surface 100 ° C -22 % Ag99.0Pdl.0 Blurred white on the surface 120 ° c -21 % Ag98.5Pdl.5 Blurred white on the surface 120 ° C -21 % Ag98.0Pd2.0 blurred white on the surface 130 ° C -20 % Ag97_5Pd2.5 blurred white in the middle part 150 ° C -7.4% (measurement not
40NDA200104TW; P1P2000284TW 12 本紙張尺度適用中國國家標準(CNS)A4規格(210 χ 297公釐) 1284746 A7 B7 發明說明(\3 ) 經濟部智慧財產局員工消費合作社印製 改變的區域) Ag97.0Pd3.0 淡白色在中間部份周圍 150°C -6.5 % (測量未 改變的區域) Ag96.5Pd3.5 淡白色在中間部份周圍 l5〇t -6.1 % (測量未 改變的區域) Ag96.0Pd4.0 淡白色在中間部份周圍 150°C -6.1 % (測量未 改變的區域) Ag99.9AuO. 1 模糊的白色於表面上 100°C -22 % Ag99.5 AuO.5 模糊的白色於表面上 ioo°c -22 % Ag99_0Aul .0 模糊的白色於表面上 _12〇〇C -21 % Ag98.5 Aul .5 模糊的白色於表面上 ^120 °C -21 % Ag98.0Au2.0 模糊的白色於表面上 _L3〇°c -21 % Ag97.5Au2.5 模糊的白色於表面上 15(TC -7.0 % (測量未 改變的區域) Ag97.0Au3.0 淡白色在中間部份周圍 15(TC -6.5 % (測量未 改變的區域) Ag96.5 Au3.5 淡白色在中間部份周圍 150°C -6.0 % (測量未 改變的區域) Ag96.0Au4_0 淡白色在中間部份周圍 I50°c -6.0 % (測量未 改變的區域) Ag99.9RuO. 1 模糊的白色於表面上 100°C -22 % Ag99.5Ru0.5 模糊的白色於表面上 100。。 -22 % Ag99.0Rul .0 模糊的白色於表面上 I2〇〇c -21 % Ag98.5Rul .5 模糊的白色於表面上 J20°C -20 % Ag98.0Ru2.0 模糊的白色於表面上 _l3〇〇c -20% Ag97.5Ru2.5 模糊的白色於表面上 150¾ -7.4 % (測量未 改變的區域) Ag97.0Ru3.0 淡白色在中間部份周圍 I50°c -6.5 % (測量未 改變的區域) Ag96.5Ru3.5 淡白色在中間部份周圍 150。。 -6.1 % (測量未 改變的區域) Ag96.0Ru4.0 淡白色在中間部份周圍 15(TC -6.1 % (測量未 改變的區域) 如同表1所顯示的,於包含金、鈀或釕的二元銀合金 層中,如同純銀層般,層表面視覺的改變並未受到抑制, 可以假設這些二元層當暴露至戶外溫度或太陽光下時,無 40NDA200104TW; P1P2000284TW 13 本紙張尺度適用中國國家標準(CNS)A4規格(210 X 297公釐) (請先閱讀背面之注意事項 1?^寫本頁) 寫女 ^--------- 1284746 A7 B7 五、發明說明(\十) 法W熱’並且是不穩定的。相較於純銀層於加熱後,加熱 後之二元銀合金層的反射率只改善約2至3%,因此,無 法證實因爲加入金、鈀以及釕而有抗表面擴散的效果。 實施例1 從Ξ元銀合金產生本發明的銀合金反射層,三元表示 二個元素,也就是,銀作爲主要成分;一第一元素,選自 包a金把以及釕之群組;以及一第二元素,選自包含銅、 鈦、絡、钽、鉬、鎳、鋁、鈮、金、鈀以及釕之群組,其 中第二元素不同於第一元素。第一元素及第二元素的含量 爲〇·ΐ至3·ο重量百分比。 首先,安裝一銀標靶以及第一元素與第二元素的標靶 於一磁電管濺鍍裝置中。這三個金屬元素同時被濺鍍以形 成銀合金層。 如同於比較實施例中,石英基底,大小爲 100mmxl00mmxi.it,用來做爲基底,濺鍍過程中基底的 溫度保持於室溫(大約25°C )。使用氬氣做爲唯一的濺鍍 氣體於一咼度真空氣壓中,最終真空度爲3xl0E_6帕,銀 合金層沉積於此石英基底上使得層的厚度爲200nm。 所產生的銀合金層保持於一熱板上大約二小時,然後 觀察層,檢查是否有視覺外觀上的改變(變成模糊(dull) 白色)以及何時發生視覺改變。熱板以每分鐘20°C的升溫 速率升高至250°C,同時檢查加熱前與加熱後銀合金層的 反射率,結果顯示於表2。 40NDA200104TW; P1P2000284TW 14 ------------ (請先閱讀背面之注意事項 11^寫本頁) • ϋ 1 1 0 n H ϋ ϋ ϋ 1 · 經濟部智慧財產局員工消費合作社印製 本紙張尺度適用中國國家標準(CNS)A4規格(21〇 x 297公愛1 ' 1284746 A7 _B7 五、發明說明(\5) 經濟部智慧財產局員工消費合作社印製 表2 材料組成分 (wt%) 於250°C加熱之 後,層的表面狀 態 發生視 覺改變 的時間 加熱前後反射 率的變化 (波長 800 nm) Ag99.8Pd0.1Cu0.1 未觀察到改變 — -1.1 % Ag98.4PdO.lCul.5 未觀察到改變 — -1.0 % Ag96.9Pd0.1Cu3.0 未觀察到改變 — -1.0 % Ag98.4Pdl.5CuO」 未觀察到改變 — -0.9 % Ag97.0Pdl.5Cul.5 未觀察到改變 — -0.7 % Ag95.5Pdl.5Cu3.0 未觀察到改變 — -0.7 % Ag96.9Pd3.0Cu(Kl 未觀察到改變 — -1.0 % Ag95.5Pd3.0Cul.5 未觀察到改變 — -0.5 % Ag94.0Pd3.0Cu3.0 未觀察到改變 — -0.4 % Ag99.8Pd0.1Ti0.1 未觀察到改變 — -1.1 % Ag98.4PdO.lTil.5 未觀察到改變 — -1.0 % Ag96.9Pd0.1Ti3.0 未觀察到改變 — -1.0 % Ag98.4Pdl.5Ti0.1 未觀察到改變 — -0.9 % Ag97.0Pdl.5Til.5 未觀察到改變 — -0.7 % Ag95.5Pdl.5Ti3.0 未觀察到改變 — -0.7 % Ag96.9Pd3.0Ti0」 未觀察到改變 — -1.0 % Ag95.5Pd3.0Til.5 未觀察到改變 — -0.5 % Ag94.0Pd3.0Ti3.0 未觀察到改變 — -0.4 % Ag99.8Pd0.1Ti0.1 未觀察到改變 — -1.1 % Ag98.4PdO.lCrl.5 未觀察到改變 — -1.0 % Ag96.9Pd0.1Cr3.0 未觀察到改變 — -1.0 % Ag98.4Pdl.5Cr0.1 未觀察到改變 — -0.9 % Ag97.0Pdl.5Crl.5 未觀察到改變 — -0.7 % Ag95.5Pdl.5Cr3.0 未觀察到改變 — -0.7 % Ag96.9Pd3.0Cr0」 未觀察到改變 — -1.0 % Ag95.5Pd3.0Crl.5 未觀察到改變 — -0.5 % Ag94.0Pd3.0Cr3.0 未觀察到改變 — -0.4 % Ag99.8Pd0.1Cr0.1 未觀察到改變 — -1.1 % Ag98.4PdO.lTal.5 未觀察到改變 — -1.0 % Ag96.9Pd0.1Ta3.0 未觀察到改變 — -1.0 % Ag98.6Pdl.5Ta0.1 未觀察到改變 — -0.9 % Ag97.0Pdl.5Tal.5 未觀察到改變 — -0.7 % Ag95.5Pdl.5Ta3.0 未觀察到改變 — -0.7 % 40NDA200104TW; P1P2000284TW 15 I ΜΜ ΙΒ··Ι Ml· _ I MB Η·· I I Η··· ΜΗ· (請先閱讀背面之注意事項寫本頁) 項 本紙張尺度適用中國國家標準(CNS)A4規格(210 X 297公釐) 1284746 A7 _B7 五、發明說明(\U) 表2 (續) 經濟部智慧財產局員工消費合作社印製 材料組成分 (wt%) 於250°C加熱 之後,層的表 面狀態 發生視 覺改變 的時間 加熱前後反 射率的變化 (波長 800 nm) Ag98.4Pd0.1Ni0.1 未觀察到改變 — -1.1 % Ag98.4PdO.lNil.5 未觀察到改變 — -1.0 % Ag96.9Pd0.1 Ni3.0 未觀察到改變 — -1.0 % Ag98.4Pdl.5 NiO.l 未觀察到改變 — -0.9 % Ag97.0Pdl.5 Nil.5 未觀察到改變 — -0.7 % Ag95.5Pdl.5 Ni3.0 未觀察到改變 — -0.7 % Ag96.9Pd3.0Ni 0.1 未觀察到改變 — -1.0 % Ag95.5Pd3.0 Nil.5 未觀察到改變 — -0.5 % Ag94.0Pd3.0Ni 3.0 未觀察到改變 — -0.4 % Ag99.8Pd0.1A10.1 未觀察到改變 — -1.1 % Ag98.4Pd0.1 All.5 未觀察到改變 — -1.0 % Ag96.9Pd0.1 A13.0 未觀察到改變 — -1.0 % Ag98.4Pdl.5 A10.1 未觀察到改變 — -0.9 % Ag97.0Pdl.5 All.5 未觀察到改變 — -0.7 % Ag95.5Pdl.5 A13.0 未觀察到改變 — -0.7 % Ag96.9Pd3.0 A10.1 未觀察到改變 — -1.0 % Ag95.5Pd3.0 All.5 未觀察到改變 — -0.5 % Ag94.0Pd3.0 A13.0 未觀察到改變 — -0.4 % Ag99.8Pd0.1 NbO.l 未觀察到改變 — -1.1 % Ag98.4Pd0.1 Nbl.5 未觀察到改變 — -1.0 % Ag96.9Pd0.1 Nb3.0 未觀察到改變 — -1.0 % Ag98.4Pdl.5 NbO.l 未觀察到改變 — -0.9 % Ag97.0Pdl.5 Nbl.5 未觀察到改變 — -0.7 % Ag95.5Pdl.5 Nb3.0 未觀察到改變 — -0.7 % Ag96.9Pd3.0 NbO.l 未觀察到改變 — -1.0 % Ag95.5Pd3.0 Nbl.5 未觀察到改變 — -0.5 % Ag94.0Pd3.0 Nb3.0 未觀察到改變 — -0.4 % 40NDA200104TW; P1P2000284TW 16 (請先閱讀背面之注意事項寫本頁) ^---------40NDA200104TW; P1P2000284TW 12 This paper size is applicable to China National Standard (CNS) A4 specification (210 297 297 mm) 1284746 A7 B7 Description of invention (\3) Ministry of Economic Affairs Intellectual Property Bureau employee consumption cooperative printed area changed) Ag97.0Pd3. 0 Light white around 150 °C -6.5 % around the middle part (measured unaltered area) Ag96.5Pd3.5 Light white around the middle part l5〇t -6.1 % (measure unaltered area) Ag96.0Pd4. 0 pale white around the middle part 150°C -6.1% (measured unchanged area) Ag99.9AuO. 1 blurred white on the surface 100°C -22 % Ag99.5 AuO.5 blurred white on the surface Ioo°c -22 % Ag99_0Aul .0 Blurred white on the surface _12〇〇C -21 % Ag98.5 Aul .5 Blurred white on the surface ^120 °C -21 % Ag98.0Au2.0 Blurred white On the surface _L3〇°c -21 % Ag97.5Au2.5 Blurred white on the surface 15 (TC -7.0 % (measured unaltered area) Ag97.0Au3.0 Light white around the middle part 15 (TC -6.5 % (measured unchanged area) Ag96.5 Au3.5 pale white around the middle part 150 ° C -6.0 % (measured Unchanged area) Ag96.0Au4_0 Light white around the middle part I50°c -6.0% (measured unaltered area) Ag99.9RuO. 1 Blurred white on the surface 100°C -22 % Ag99.5Ru0. 5 blurred white on the surface 100. -22 % Ag99.0Rul .0 blurred white on the surface I2〇〇c -21 % Ag98.5Rul .5 blurred white on the surface J20 °C -20 % Ag98. 0Ru2.0 blurred white on the surface _l3〇〇c -20% Ag97.5Ru2.5 blurred white on the surface 1503⁄4 -7.4% (measured unchanged area) Ag97.0Ru3.0 pale white in the middle part I50°c -6.5 % around (measured unaltered area) Ag96.5Ru3.5 light white around the middle part 150. -6.1 % (measured unaltered area) Ag96.0Ru4.0 light white in the middle part Around 15 (TC -6.1% (measured unaltered area) As shown in Table 1, in the binary silver alloy layer containing gold, palladium or rhodium, as the layer of pure silver, the change in layer surface vision is not inhibited It can be assumed that these binary layers are not exposed to outdoor temperature or sunlight, without 40NDA200104TW; P1P2000284TW 1 3 The paper size applies to the Chinese National Standard (CNS) A4 specification (210 X 297 mm) (please read the notes on the back first? ^ Write this page) Write a female ^--------- 1284746 A7 B7 V. Description of invention (\10) Method W heat' and is unstable. The reflectance of the heated binary silver alloy layer is improved by only about 2 to 3% compared to the pure silver layer after heating, and therefore, it is impossible to confirm the effect of surface diffusion resistance by adding gold, palladium, and rhodium. Example 1 The silver alloy reflective layer of the present invention is produced from a bismuth silver alloy, the ternary representing two elements, that is, silver as a main component; and a first element selected from the group consisting of a gold and a crucible; A second element selected from the group consisting of copper, titanium, tantalum, niobium, molybdenum, nickel, aluminum, lanthanum, gold, palladium, and lanthanum, wherein the second element is different from the first element. The content of the first element and the second element is from 〇·ΐ to 3·ο% by weight. First, a silver target and a target of the first element and the second element are mounted in a magnetron sputtering apparatus. These three metal elements are simultaneously sputtered to form a silver alloy layer. As in the comparative example, a quartz substrate having a size of 100 mm x 100 mm x. It was used as a substrate, and the temperature of the substrate during sputtering was maintained at room temperature (about 25 ° C). Argon gas was used as the sole sputtering gas in a vacuum atmosphere with a final vacuum of 3 x 10E_6 Pa, and a silver alloy layer was deposited on the quartz substrate such that the thickness of the layer was 200 nm. The resulting silver alloy layer was held on a hot plate for about two hours, and then the layers were observed to check for visual appearance changes (dull white) and when visual changes occurred. The hot plate was raised to 250 ° C at a temperature increase rate of 20 ° C per minute, and the reflectance of the silver alloy layer before and after heating was examined. The results are shown in Table 2. 40NDA200104TW; P1P2000284TW 14 ------------ (Please read the notes on the back 11^ to write this page) • ϋ 1 1 0 n H ϋ ϋ ϋ 1 · Ministry of Economic Affairs Intellectual Property Bureau employee consumption cooperative Printed paper scale applies to China National Standard (CNS) A4 specification (21〇x 297 public 1' 1284746 A7 _B7 V. Invention description (\5) Ministry of Economic Affairs Intellectual Property Bureau Staff Consumer Cooperative Printed Table 2 Material Composition ( Wt%) The change in reflectance of the surface state of the layer after heating at 250 °C (wavelength 800 nm) Ag99.8Pd0.1Cu0.1 No change observed - -1.1 % Ag98.4PdO.lCul .5 No change observed - -1.0 % Ag96.9Pd0.1Cu3.0 No change observed - -1.0 % Ag98.4Pdl.5CuO" No change observed - -0.9 % Ag97.0Pdl.5Cul.5 No change observed — -0.7 % Ag95.5Pdl.5Cu3.0 No change observed - -0.7 % Ag96.9Pd3.0Cu (Kl No change observed - -1.0 % Ag95.5Pd3.0Cul.5 No change observed - -0.5 % Ag94 .0Pd3.0Cu3.0 No change observed - -0.4 % Ag99.8Pd0.1Ti0.1 No change observed - -1.1 % Ag98.4PdO.lTil.5 Not No change was observed - -1.0 % Ag96.9Pd0.1Ti3.0 No change observed - -1.0 % Ag98.4Pdl.5Ti0.1 No change observed - -0.9 % Ag97.0Pdl.5Til.5 No change observed - 0.7 % Ag95.5Pdl.5Ti3.0 No change observed - -0.7 % Ag96.9Pd3.0Ti0" No change observed - -1.0 % Ag95.5Pd3.0Til.5 No change observed - -0.5 % Ag94.0Pd3. 0Ti3.0 No change observed - -0.4 % Ag99.8Pd0.1Ti0.1 No change observed - -1.1 % Ag98.4PdO.lCrl.5 No change observed - -1.0 % Ag96.9Pd0.1Cr3.0 Not observed To change - -1.0 % Ag98.4Pdl.5Cr0.1 No change observed - -0.9 % Ag97.0Pdl.5Crl.5 No change observed - -0.7 % Ag95.5Pdl.5Cr3.0 No change observed - -0.7 % Ag96.9Pd3.0Cr0" No change observed - -1.0 % Ag95.5Pd3.0Crl.5 No change observed - -0.5 % Ag94.0Pd3.0Cr3.0 No change observed - -0.4 % Ag99.8Pd0.1Cr0 .1 No change observed - -1.1 % Ag98.4PdO.lTal.5 No change observed - -1.0 % Ag96.9Pd0.1Ta3.0 No change observed - -1.0 % Ag98.6Pdl.5Ta0.1 Not observed Change - -0.9 % Ag97.0Pdl.5T Al.5 No change observed - -0.7 % Ag95.5Pdl.5Ta3.0 No change observed - -0.7 % 40NDA200104TW; P1P2000284TW 15 I ΜΜ Ι··Ι Ml· _ I MB Η·· II Η··· ΜΗ · (Please read the note on the back to write this page) The paper size applies to the Chinese National Standard (CNS) A4 specification (210 X 297 mm) 1284746 A7 _B7 V. Description of the invention (\U) Table 2 (continued) Economy Ministry of Intellectual Property Bureau employee consumption cooperative printed material composition (wt%) After heating at 250 °C, the surface state of the layer changes visually. The change of reflectivity before and after heating (wavelength 800 nm) Ag98.4Pd0.1Ni0.1 No change was observed - -1.1 % Ag98.4PdO.lNil.5 No change observed - -1.0 % Ag96.9Pd0.1 Ni3.0 No change observed - -1.0 % Ag98.4Pdl.5 NiO.l Not observed Change - -0.9 % Ag97.0Pdl.5 Nil.5 No change observed - -0.7 % Ag95.5Pdl.5 Ni3.0 No change observed - -0.7 % Ag96.9Pd3.0Ni 0.1 No change observed - -1.0 % Ag95.5Pd3.0 Nil.5 No change observed - -0.5 % Ag94.0Pd3.0Ni 3.0 No change observed - -0.4 % Ag99.8Pd0.1A10 .1 No change observed - -1.1 % Ag98.4Pd0.1 All.5 No change observed - -1.0 % Ag96.9Pd0.1 A13.0 No change observed - -1.0 % Ag98.4Pdl.5 A10.1 No change observed - -0.9 % Ag97.0Pdl.5 All.5 No change observed - -0.7 % Ag95.5Pdl.5 A13.0 No change observed - -0.7 % Ag96.9Pd3.0 A10.1 Not observed To change - -1.0 % Ag95.5Pd3.0 All.5 No change observed - -0.5 % Ag94.0Pd3.0 A13.0 No change observed - -0.4 % Ag99.8Pd0.1 NbO.l No change observed — -1.1 % Ag98.4Pd0.1 Nbl.5 No change observed - -1.0 % Ag96.9Pd0.1 Nb3.0 No change observed - -1.0 % Ag98.4Pdl.5 NbO.l No change observed - 0.9 % Ag97.0Pdl.5 Nbl.5 No change observed - -0.7 % Ag95.5Pdl.5 Nb3.0 No change observed - -0.7 % Ag96.9Pd3.0 NbO.l No change observed - -1.0 % Ag95.5Pd3.0 Nbl.5 No change observed - -0.5 % Ag94.0Pd3.0 Nb3.0 No change observed - -0.4 % 40NDA200104TW; P1P2000284TW 16 (Please read the note on the back to write this page) ^- --------
Ag96.9Pd3.0Ta0.1 未觀察到改變 — -1.0 % Ag95.5Pd3.OTal.5 未觀察到改變 — -0.5 % Ag94.0Pd3.0Ta3.0 未觀察到改變 — -0.4 % 本紙張尺度適用中國國家標準(CNS)A4規格(210 X 297公釐) 1284746 A7 B7 五、發明說明(VI) 表2 (續) 經濟部智慧財產局員工消費合作社印製 材料組成分 (wt%) 於250°C加熱 之後,層的表 面狀態 發生視 覺改變 的時間 加熱前後反 射率的變化 (波長 800 nm) Ag99.8PdO.lMoO」 未觀察到改變 — -1.1 % Ag98.4PdO.lMol.5 未觀察到改變 — -1.0 % Ag96.9Pd0.1Mo3.0 未觀察到改變 — -1.0 % Ag98.4Pdl.5Mo0.1 未觀察到改變 — -0.9 % Ag97.0Pdl.5Mol.5 未觀察到改變 — -0.7 % Ag95.5Pdl.5Mo3.0 未觀察到改變 — -0.7 % Ag96.9Pd3.0Mo0」 未觀察到改變 — -1.0 % Ag95.5Pd3.0Mol.5 未觀察到改變 — -0.5 % Ag94.0Pd3.0Mo3.0 未觀察到改變 — -0.4 % Ag99.8Pd0.1Au0.1 未觀察到改變 — -1.1 % Ag98.4Pd0.1 Aul.5 未觀察到改變 — -1.0 % Ag96.9Pd0.1 Au3.0 未觀察到改變 — -1.0 % Ag98.4Pdl.5 AuO.l 未觀察到改變 — -0.9 % Ag97.0Pdl.5 Aul.5 未觀察到改變 — -0.7 % Ag95.5Pdl.5 Au3.0 未觀察到改變 — -0.7 % Ag96.9Pd3.0 AuO.l 未觀察到改變 — -1.0 % Ag95.5Pd3.0 Aul.5 未觀察到改變 — -0.5 % Ag94.0Pd3.0 Au3.0 未觀察到改變 — -0.4 % Ag99.8Au0.1Ru0.1 未觀察到改變 — -1.0 % Ag98.4AuO. IRul .5 未觀察到改變 — -0.8 % Ag96.9Au0.1Ru3.0 未觀察到改變 — -0.5 % Ag98.4Aul.5Ru0.1 未觀察到改變 — -1.0 % Ag97.0Aul.5Rul.5 未觀察到改變 — -0.3 % Ag95.5Aul.5Ru3.0 未觀察到改變 — -0.6 % Ag96.9Au3.0Ru0.1 未觀察到改變 — -0.8 % Ag95.5Au3.0Rul .5 未觀察到改變 — -0.5 % Ag94.0Au3.0Ru3.0 未觀察到改變 — -0.8 % Ag99.8Au0.1Ru0.1 未觀察到改變 — -1.0 % Ag98.4Pd0.1 Rul.5 未觀察到改變 — -0.9 % Ag96.9Pd0.1 Ru3.0 未觀察到改變 — -1.0 % Ag98.6Pdl.5 RuO.l 未觀察到改變 — -0.9 % Ag97.0Pdl.5 Rul.5 未觀察到改變 — -0.8 % Ag95.5Pdl.5 Ru3.0 未觀察到改變 — -0.7 %No change was observed in Ag96.9Pd3.0Ta0.1 - -1.0 % Ag95.5Pd3.OTal.5 No change observed - -0.5 % Ag94.0Pd3.0Ta3.0 No change observed - -0.4 % This paper size applies to China National Standard (CNS) A4 Specification (210 X 297 mm) 1284746 A7 B7 V. Description of Invention (VI) Table 2 (Continued) Ministry of Economic Affairs Intellectual Property Bureau Staff Consumer Cooperatives Printed Materials Composition (wt%) at 250 ° C After heating, the surface state of the layer changes visually. The change in reflectance before and after heating (wavelength 800 nm) Ag99.8PdO.lMoO" No change observed - -1.1 % Ag98.4PdO.lMol.5 No change observed - No change was observed in 1.0% Ag96.9Pd0.1Mo3.0 - -1.0 % Ag98.4Pdl.5Mo0.1 No change observed - -0.9 % Ag97.0Pdl.5Mol.5 No change observed - -0.7 % Ag95.5Pdl .5Mo3.0 No change observed - -0.7 % Ag96.9Pd3.0Mo0" No change observed - -1.0 % Ag95.5Pd3.0Mol.5 No change observed - -0.5 % Ag94.0Pd3.0Mo3.0 Not observed To change - -0.4 % Ag99.8Pd0.1Au0.1 No change observed - -1.1 % Ag98.4Pd0.1 Aul.5 No change observed - -1.0 % No change was observed for Ag96.9Pd0.1 Au3.0 - -1.0 % Ag98.4Pdl.5 AuO.l No change observed - -0.9 % Ag97.0Pdl.5 Aul.5 No change observed - -0.7 % Ag95. No change was observed in 5Pdl.5 Au3.0 - -0.7 % Ag96.9Pd3.0 AuO.l No change observed - -1.0 % Ag95.5Pd3.0 Aul.5 No change observed - -0.5 % Ag94.0Pd3. 0 Au3.0 No change observed - -0.4 % Ag99.8Au0.1Ru0.1 No change observed - -1.0 % Ag98.4AuO. IRul .5 No change observed - -0.8 % Ag96.9Au0.1Ru3.0 Not Change observed - -0.5 % Ag98.4Aul.5Ru0.1 No change observed - -1.0 % Ag97.0Aul.5Rul.5 No change observed - -0.3 % Ag95.5Aul.5Ru3.0 No change observed - No change was observed in 0.6 % Ag96.9Au3.0Ru0.1 - -0.8 % Ag95.5Au3.0Rul .5 No change observed - -0.5 % Ag94.0Au3.0Ru3.0 No change observed - -0.8 % Ag99.8Au0 .1Ru0.1 No change observed - -1.0 % Ag98.4Pd0.1 Rul.5 No change observed - -0.9 % Ag96.9Pd0.1 Ru3.0 No change observed - -1.0 % Ag98.6Pdl.5 RuO .l No change observed - -0.9 % Ag97.0Pdl.5 Rul.5 Not observed To change - -0.8 % Ag95.5Pdl.5 Ru3.0 No change observed - -0.7 %
40NDA200104TW; P1P2000284TW 17 請 先 閱 讀 背 面 之 注 意 事40NDA200104TW; P1P2000284TW 17 Please read the note on the back first.
η 頁Iη page I
I 訂> I I •4 本紙張尺度適用中國國家標準(CNS)A4規格(210 X 297公釐) 1284746 A7 B7 五、發明說明(\名) 表2 (續) 經濟部智慧財產局員工消費合作社印製I Order > II •4 This paper size applies to China National Standard (CNS) A4 specification (210 X 297 mm) 1284746 A7 B7 V. Invention Description (\Name) Table 2 (Continued) Ministry of Economic Affairs Intellectual Property Office Staff Consumer Cooperative Printed
AgAuXb 材料組成分 (wt%) 於250°C加熱 之後,層的表 面狀態 發生視 覺改變 的時間 加熱前後反 射率的變化 (波長 800 nm) Ag99.8Au0.1Cu0.1 未觀察到改變 — -0.9 % Ag98.4AuO.lCul.5 未觀察到改變 — -0.8 % Ag96.9Au0.1Cu3.0 未觀察到改變 — -0.8 % Ag98.4Aul.5Cu0.1 未觀察到改變 — -0.7 % Ag97.0Aul.5Cul.5 未觀察到改變 — -0.6 % Ag95.5Aul.5Cu3.0 未觀察到改變 — -0.5 % Ag96.9Au3.0Cu0」 未觀察到改變 — -0.8 % Ag95.5Au3.0Cul .5 未觀察到改變 — -0.5 % Ag94.0Au3.0Cu3.0 未觀察到改變 — -0.6 % Ag99.8Au0.1Ti0.1 未觀察到改變 — -0.9 % Ag98.4Au0.1Ti 1.5 未觀察到改變 — -0.6 % Ag96.9Au0.1Ti 3.0 未觀察到改變 — -0.3 % Ag98.4Aul.5Ti 0.1 未觀察到改變 — -0.5 % Ag97.0Aul.5Ti 1.5 未觀察到改變 — -0.8 % Ag95.5Aul.5Ti 3.0 未觀察到改變 一 -0.6 % Ag96.9Au3.0Ti 0.1 未觀察到改變. — -0.9 % Ag95.5Au3.0Ti 1.5 未觀察到改變 — -1.1 % Ag94.0Au3.0Ti 3.0 未觀察到改變 一 -1.0 % Ag99.8Au0.1Cr0.1 未觀察到改變 — -0.8 % Ag98.4Au0.1Cr 1.5 未觀察到改變 — -1.0 % Ag96.9Au0.1Cr 3.0 未觀察到改變 — -0.6 % Ag98.4Aul.5Cr 0.1 未觀察到改變 — -0.9 % Ag97.0Aul.5Cr 1.5 未觀察到改變 — -0.4 % Ag95.5Aul.5Cr 3.0 未觀察到改變 — -1.1 % Ag96.9Au3.0Cr 0.1 未觀察到改變 — -0.8 % 40NDA200104TW: P1P2000284TW 18 (請先閱讀背面之注意事項寫本頁) 寫女 ^---------AgAuXb material composition (wt%) After heating at 250 °C, the surface state of the layer changes visually. The change of reflectance before and after heating (wavelength 800 nm) Ag99.8Au0.1Cu0.1 No change observed - -0.9 % Ag98.4AuO.lCul.5 No change observed - -0.8 % Ag96.9Au0.1Cu3.0 No change observed - -0.8 % Ag98.4Aul.5Cu0.1 No change observed - -0.7 % Ag97.0Aul.5Cul .5 No change observed - -0.6 % Ag95.5Aul.5Cu3.0 No change observed - -0.5 % Ag96.9Au3.0Cu0" No change observed - -0.8 % Ag95.5Au3.0Cul .5 No change observed — -0.5 % Ag94.0Au3.0Cu3.0 No change observed - -0.6 % Ag99.8Au0.1Ti0.1 No change observed - -0.9 % Ag98.4Au0.1Ti 1.5 No change observed - -0.6 % Ag96. No change was observed for 9Au0.1Ti 3.0 - -0.3 % Ag98.4Aul.5Ti 0.1 No change observed - -0.5 % Ag97.0Aul.5Ti 1.5 No change observed - -0.8 % Ag95.5Aul.5Ti 3.0 No change observed No change was observed for -0.6% Ag96.9Au3.0Ti 0.1. - -0.9 % Ag95.5Au3.0Ti 1.5 No change observed - -1.1 % Ag94.0Au3.0Ti 3.0 No change was observed - 1.0% Ag99.8Au0.1Cr0.1 No change observed - -0.8 % Ag98.4Au0.1Cr 1.5 No change observed - -1.0 % Ag96.9Au0.1Cr 3.0 No change observed - -0.6 % Ag98.4Aul.5Cr 0.1 No change observed - -0.9 % Ag97.0Aul.5Cr 1.5 No change observed - -0.4 % Ag95.5Aul.5Cr 3.0 No change observed - -1.1 % Ag96.9Au3.0Cr 0.1 Not observed To change - -0.8 % 40NDA200104TW: P1P2000284TW 18 (Please read the note on the back first to write this page) Write female ^---------
Ag96.9Pd3.0 RuO.l 未觀察到改變 — -1.0 % Ag95.5Pd3.0 Rul.5 未觀察到改變 — -0.6 % Ag94.0Pd3.0 Ru3.0 未觀察到改變 — -0.4 % 本紙張尺度適用中國國家標準(CNS)A4規格(210 X 297公釐) 1284746 A7 B7 五、發明說明(1¾ )Ag96.9Pd3.0 RuO.l No change observed - -1.0 % Ag95.5Pd3.0 Rul.5 No change observed - -0.6 % Ag94.0Pd3.0 Ru3.0 No change observed - -0.4 % Paper The scale applies to the Chinese National Standard (CNS) A4 specification (210 X 297 mm) 1284746 A7 B7 V. Description of invention (13⁄4)
Ag95.5Au3.0Cr 1.5 未觀察到改變 — -0.9 % Ag94.0Au3.0Cr 3.0 未觀察到改變 — -0.7 % Ag99.8Au0.1Ti0.1 未觀察到改變 — -0.5% Ag98.4AuO.lTi 1.5 未觀察到改變 — -0.6 % Ag96.9AuO.lTi 3.0 未觀察到改變 — 1.1 % Ag98.6Aul.5Ti 0.1 未觀察到改變 — -0.4 % Ag97.0Aul.5Ti 1.5 未觀察到改變 — -0.9 % Ag95.5Aul.5Ti 3.0 未觀察到改變 — -0.8 % Ag96.9Au3.0Ti 0.1 未觀察到改變 — -0.5 % Ag95.5Au3.0Ti 1.5 未觀察到改變 — -1.0 % Ag94.0Au3.0Ti 3.0 未觀察到改變 — -0.6 % 表2 (續) (請先閱讀背面之注意事項寫本頁) 經濟部智慧財產局員工消費合作社印製 材料組成分 (wt%) 於250°C加熱 之後,層的表 面狀態 發生視 覺改變 的時間 加熱前後反 射率的變化 (波長 800 nm) Ag99.8Au0.1Mo0.1 未觀察到改變 — -0.7 % Ag98.4AuO.lMol.5 未觀察到改變 — -1.1 % Ag96.9AuO. 1M〇3.0 未觀察到改變 — -0.8 % Ag98.4Aul.5Mo0.1 未觀察到改變 — -0.4 % Ag97.0Aul .5Mol .5 未觀察到改變 — -0.8 % Ag95.5Aul.5Mo3.0 未觀察到改變 — -0.3 % Ag96.9Au3.0Mo0.1 未觀察到改變 — -0.9 % Ag95.5Au3.0Mol .5 未觀察到改變 — -1.1 % Ag94.0Au3.0Mo3.0 未觀察到改變 — -1.0 % Ag99.8Au0.1Na0.1 未觀察到改變 — -0.5 % Ag98.4AuO.lNal.5 未觀察到改變 — -1.1% Ag96.9Au0.1Na3.0 未觀察到改變 — -0.8 % Ag98.4Aul.5Na0.1 未觀察到改變 — -0.4 % Ag97.0Aul.5Nal.5 未觀察到改變 — -1.0% Ag95.5Aul.5Na3.0 未觀察到改變 — -0.7 % Ag96.9Au3.0Na0.1 未觀察到改變 — -0.9 % Ag95.5Au3.0Nal.5 未觀察到改變 — -0.6% Ag94.0Au3.0Na3.0 未觀察到改變 — -0.8 % Ag99.8AuO. 1A10.1 未觀察到改變 — -1.09 % 40NDA200104TW; P1P2000284TW 19 本紙張尺度適用中國國家標準(CNS)A4規格(210 χ 297公釐) t--------- 1284746 A7 B7 五、發明說明(>〇 )No change was observed for Ag95.5Au3.0Cr 1.5 - -0.9 % Ag94.0Au3.0Cr 3.0 No change observed - -0.7 % Ag99.8Au0.1Ti0.1 No change observed - -0.5% Ag98.4AuO.lTi 1.5 Not No change was observed - -0.6 % Ag96.9AuO.lTi 3.0 No change observed - 1.1 % Ag98.6Aul.5Ti 0.1 No change observed - -0.4 % Ag97.0Aul.5Ti 1.5 No change observed - -0.9 % Ag95. 5Aul.5Ti 3.0 No change observed - -0.8 % Ag96.9Au3.0Ti 0.1 No change observed - -0.5 % Ag95.5Au3.0Ti 1.5 No change observed - -1.0 % Ag94.0Au3.0Ti 3.0 No change observed — -0.6 % Table 2 (continued) (Please read the notes on the back to write this page) Ministry of Economic Affairs Intellectual Property Bureau Staff Consumer Cooperatives Printed Materials Composition (wt%) After heating at 250 °C, the surface state of the layer occurs Change in reflectivity before and after heating (wavelength 800 nm) Ag99.8Au0.1Mo0.1 No change observed - -0.7 % Ag98.4AuO.lMol.5 No change observed - -1.1 % Ag96.9AuO. 1M 〇3.0 No change observed - -0.8 % Ag98.4Aul.5Mo0.1 No change observed - -0.4 % Ag97.0Aul .5Mo l .5 No change observed - -0.8 % No change observed in Ag95.5Aul.5Mo3.0 - -0.3 % Ag96.9Au3.0Mo0.1 No change observed - -0.9 % Ag95.5Au3.0Mol .5 Not observed To change - -1.1 % Ag94.0Au3.0Mo3.0 No change observed - -1.0 % Ag99.8Au0.1Na0.1 No change observed - -0.5 % Ag98.4AuO.lNal.5 No change observed - -1.1 No change was observed in % Ag96.9Au0.1Na3.0 - -0.8 % Ag98.4Aul.5Na0.1 No change observed - -0.4 % Ag97.0Aul.5Nal.5 No change observed - -1.0% Ag95.5Aul. No change was observed in 5Na3.0 - -0.7 % Ag96.9Au3.0Na0.1 No change observed - -0.9 % Ag95.5Au3.0Nal.5 No change observed - -0.6% Ag94.0Au3.0Na3.0 Not observed To change - -0.8 % Ag99.8AuO. 1A10.1 No change observed - -1.09 % 40NDA200104TW; P1P2000284TW 19 This paper size applies to China National Standard (CNS) A4 specification (210 297 297 mm) t----- ---- 1284746 A7 B7 V. Invention Description (>〇)
Ag98.4AuO.lAl 1.5 未觀察到改變 — -1.1 % Ag96.9AuO.lAl 3.0 未觀察到改變 — -0.7 % Ag98.4Aul.5Al 0.1 未觀察到改變 — -0.9 % Ag97.0Aul.5Al 1.5 未觀察到改變 — -0.5 % Ag95.5Aul.5Al 3.0 未觀察到改變 — -0.4 % Ag96.9Au3.0Al 0.1 未觀察到改變 — -0.8 % Ag95.5Au3.0Al 1.5 未觀察到改變 — -1.0 % Ag94.0Au3.0Al 3.0 未觀察到改變 — -1.1 % Ag99.8Au0.1Nb0.1 未觀察到改變 — -1.1% Ag98.4AuO.lNbl.5 未觀察到改變 — -1.0 % Ag96.9Au0.1Nb3.0 未觀察到改變 — -0.9 % Ag98.6Aul.5Nb0.1 未觀察到改變 — -0.8 % Ag97.0Aul.5Nbl.5 未觀察到改變 — -0.7 % Ag95.5Aul.5Nb3.0 未觀察到改變 — -0.8 % Ag96.9Au3.0Nb0.1 未觀察到改變 — -1.0 % Ag95.5Au3.0Nbl.5 未觀察到改變 — -0.4 % Ag94.0Au3.0Nb3.0 未觀察到改變 — -0.4 % 表2 (續) 經濟部智慧財產局員工消費合作社印製No change was observed in Ag98.4AuO.lAl 1.5 - -1.1 % Ag96.9AuO.lAl 3.0 No change observed - -0.7 % Ag98.4Aul.5Al 0.1 No change observed - -0.9 % Ag97.0Aul.5Al 1.5 Not observed To change - -0.5 % Ag95.5Aul.5Al 3.0 No change observed - -0.4 % Ag96.9Au3.0Al 0.1 No change observed - -0.8 % Ag95.5Au3.0Al 1.5 No change observed - -1.0 % Ag94. 0Au3.0Al 3.0 No change observed - -1.1 % Ag99.8Au0.1Nb0.1 No change observed - -1.1% Ag98.4AuO.lNbl.5 No change observed - -1.0 % Ag96.9Au0.1Nb3.0 Not Change observed - -0.9 % Ag98.6Aul.5Nb0.1 No change observed - -0.8 % Ag97.0Aul.5Nbl.5 No change observed - -0.7 % Ag95.5Aul.5Nb3.0 No change observed - No change was observed in 0.8 % Ag96.9Au3.0Nb0.1 - -1.0 % Ag95.5Au3.0Nbl.5 No change observed - -0.4 % Ag94.0Au3.0Nb3.0 No change observed - -0.4 % Table 2 ( Continued) Printed by the Ministry of Economic Affairs Intellectual Property Bureau employee consumption cooperative
AgRuX 材料組成分 (wt%) 於250°C加熱 之後,層的表 面狀態 發生視 覺改變 的時間 加熱前後反 射率的變化 (波長 800 nm) Ag99.8Ru0.1Cu0.1 未觀察到改變 — -0.9 % Ag98.4RuO.lCul.5 未觀察到改變 — -0.8% Ag96.9Ru0.1Cu3.0 未觀察到改變 — -0.7 % Ag98.4Rul.5Cu0.1 未觀察到改變 — -0.7 % Ag97.0Rul.5Cul.5 未觀察到改變 — -0.6 % Ag95.5Rul .5Cu3.0 未觀察到改變 — -0.5 % Ag96.9Ru3.0Cu0.1 未觀察到改變 — -0.7 % Ag95.5Ru3.0Cul.5 未觀察到改變 — -0.5 % Ag94.0Ru3.0Cu3.0 未觀察到改變 — -0.6 % Ag99.8Ru0.1Ti0.1 未觀察到改變 — -0.9 % Ag98.4Ru0.1 Ti 1.5 未觀察到改變 — -0.6% 40NDA200104TW; P1P2000284TW 20 本紙張尺度適用中國國家標準(CNS)A4規格(210 X 297公釐) -ϋ I ϋ I I ·ϋ 一:°J ϋ 1_1 1 n ϋ ϋ I (請先閱讀背面之注意事項寫本頁) 1284746 A7 B7 五、發明說明(>υAgRuX material composition (wt%) After heating at 250 °C, the surface state of the layer changes visually. The change of reflectance before and after heating (wavelength 800 nm) Ag99.8Ru0.1Cu0.1 No change observed - -0.9 % No change was observed in Ag98.4RuO.lCul.5 - -0.8% Ag96.9Ru0.1Cu3.0 No change observed - -0.7 % Ag98.4Rul.5Cu0.1 No change observed - -0.7 % Ag97.0Rul.5Cul .5 No change observed - -0.6 % Ag95.5Rul .5Cu3.0 No change observed - -0.5 % Ag96.9Ru3.0Cu0.1 No change observed - -0.7 % Ag95.5Ru3.0Cul.5 Not observed Change - -0.5 % Ag94.0Ru3.0Cu3.0 No change observed - -0.6 % Ag99.8Ru0.1Ti0.1 No change observed - -0.9 % Ag98.4Ru0.1 Ti 1.5 No change observed - -0.6% 40NDA200104TW; P1P2000284TW 20 This paper size is applicable to China National Standard (CNS) A4 specification (210 X 297 mm) -ϋ I ϋ II ·ϋ One: °J ϋ 1_1 1 n ϋ ϋ I (Please read the notes on the back first. This page) 1284746 A7 B7 V. Invention Description (>υ
Ag96.9Ru0.1 Ti 3.0 未觀察到改變 — -0.4% Ag98.4Rul.5 Ti 0.1 未觀察到改變 — -0.5 % Ag97.0Rul.5 Ti 1.5 未觀察到改變 — -0.8% Ag95.5Rul.5 Ti 3.0 未觀察到改變 — -0.5 % Ag96.9Ru3.0 Ti 0.1 未觀察到改變 — -0.9 % Ag95.5Ru3.0 Ti 1.5 未觀察到改變 — -1.1% Ag94.0Ru3.0 Ti 3.0 未觀察到改變 — -1.0 % Ag99.8Ru O.lCrO.l 未觀察到改變 — -0.8 % Ag98.4 Ru0.1Crl.5 未觀察到改變 — -1.0 % Ag96.9 Ru0.1Cr3.0 未觀察到改變 — -0.6 % Ag98.4 Rul.5Cr0.1 未觀察到改變 — -0.8 % Ag97.0 Rul.5Crl.5 未觀察到改變 — -0.4 % Ag95.5 Rul.5Cr3.0 未觀察到改變 — -1.0 % Ag96.9 Ru3.0Cr0.1 未觀察到改變 — -0.8 % Ag95.5 Ru3.0Crl.5 未觀察到改變 — -0.9 % Ag94.0 Ru3.0Cr3.0 未觀察到改變 — -0.8 % Ag99.8Ru0.1Ta0.1 未觀察到改變 — -0.9 % Ag98.4Ru0.1Ta 1.5 未觀察到改變 — -0.8 % Ag96.9Ru0.1Ta 3.0 未觀察到改變 — -0.7 % Ag98.6Rul.5Ta 0.1 未觀察到改變 — -0.7 % Ag97.0Rul.5Ta 1.5 未觀察到改變 — -0.6 % Ag95.5Rul.5Ta 3.0 未觀察到改變 — -0.5 % Ag96.9Ru3.0Ta 0.1 未觀察到改變 — -0.7 % Ag95.5Ru3.0Ta 1.5 未觀察到改變 — -0.6 % Ag94.0Ru3.0Ta 3.0 未觀察到改變 — -0.6 % (請先閱讀背面之注意事項寫本頁) 寫夫 ·11111111 Φ4. 表2 (續) 材料組成分 (wt%) 於250°C加熱 之後,層的表 面狀態 發生視 覺改變 的時間 加熱前後反 射率的變化 (波長 800 nm) Ag99.8Ru0.1Mo0.1 未觀察到改變 — -0.8 % Ag98.4RuO.lMol.5 未觀察到改變 — -1.0% Ag96.9Ru0.1Mo3.0 未觀察到改變 — -0.6 % Ag98.4Rul ·5Μ〇0· 1 未觀察到改變 一 -0.7 % Ag97.0Rul.5Mol.5 未觀察到改變 — -0.4 % 經濟部智慧財產局員工消費合作社印製 40NDA200104TW; P1P2000284TW 21 本紙張尺度適用中國國家標準(CNS)A4規格(210 X 297公釐) 1284746 A7 B7五、發明說明(》)No change was observed for Ag96.9Ru0.1 Ti 3.0 - -0.4% Ag98.4Rul.5 Ti 0.1 No change observed - -0.5 % Ag97.0Rul.5 Ti 1.5 No change observed - -0.8% Ag95.5Rul.5 No change was observed in Ti 3.0 - -0.5 % Ag96.9Ru3.0 Ti 0.1 No change observed - -0.9 % Ag95.5Ru3.0 Ti 1.5 No change observed - -1.1% Ag94.0Ru3.0 Ti 3.0 Not observed Change - -1.0 % Ag99.8Ru O.lCrO.l No change observed - -0.8 % Ag98.4 Ru0.1Crl.5 No change observed - -1.0 % Ag96.9 Ru0.1Cr3.0 No change observed - -0.6 % Ag98.4 Rul.5Cr0.1 No change observed - -0.8 % Ag97.0 Rul.5Crl.5 No change observed - -0.4 % Ag95.5 Rul.5Cr3.0 No change observed - -1.0 % Ag96.9 Ru3.0Cr0.1 No change observed - -0.8 % Ag95.5 Ru3.0Crl.5 No change observed - -0.9 % Ag94.0 Ru3.0Cr3.0 No change observed - -0.8 % Ag99 .8Ru0.1Ta0.1 No change observed - -0.9 % Ag98.4Ru0.1Ta 1.5 No change observed - -0.8 % Ag96.9Ru0.1Ta 3.0 No change observed - -0.7 % Ag98.6Rul.5Ta 0.1 Not observed To change - -0.7 % Ag97.0Rul.5Ta 1.5 No change observed - -0.6 % Ag95.5Rul.5Ta 3.0 No change observed - -0.5 % Ag96.9Ru3.0Ta 0.1 No change observed - -0.7 % Ag95.5Ru3.0Ta 1.5 No change observed - -0.6 % Ag94.0Ru3.0Ta 3.0 No change observed - -0.6 % (Please read the note on the back to write this page) Writer · 11111111 Φ4. Table 2 (continued) Material composition (wt%) After heating at 250 ° C The surface state of the layer undergoes a visual change. The change in reflectance before and after heating (wavelength 800 nm) Ag99.8Ru0.1Mo0.1 No change observed - -0.8 % Ag98.4RuO.lMol.5 No change observed - -1.0 % Ag96.9Ru0.1Mo3.0 No change observed - -0.6 % Ag98.4Rul ·5Μ〇0· 1 No change was observed -0.7% Ag97.0Rul.5Mol.5 No change observed - -0.4 % Ministry of Economy Intellectual Property Bureau employee consumption cooperative printed 40NDA200104TW; P1P2000284TW 21 This paper scale applies to China National Standard (CNS) A4 specification (210 X 297 mm) 1284746 A7 B7 V. Invention description (》)
Ag95.5Rul.5Mo3.0 未觀察到改變 — -1.1 % Ag96.9Ru3.0Mo0.1 未觀察到改變 — -0.8 % Ag95.5Ru3.OMol.5 未觀察到改變 — -0.7 % Ag94.0Ru3.0Mo3.0 未觀察到改變 — -0.6 % Ag99.8Ru0.1Ni0.1 未觀察到改變 — -1.0 % Ag98.4RuO.lNi 1.5 未觀察到改變 — -1.1 % Ag96.9RuO.lNi 3.0 未觀察到改變 — -0.8 % Ag98.4Rul.5Ni 0.1 未觀察到改變 — -0.8 % Ag97.0Rul.5Ni 1.5 未觀察到改變 — -0.5 % Ag95.5Rul.5Ni 3.0 未觀察到改變 — -0.5 % Ag96.9Ru3.0Ni 0.1 未觀察到改變 — -0.7 % Ag95.5Ru3.0Ni 1.5 未觀察到改變 — -1.0 % Ag94.0Ru3.0Ni 3.0 未觀察到改變 — -1.1 % Ag99.8Ru 0.1A10.1 未觀察到改變 — -1.0 % Ag98.4 Ru0.1A11.5 未觀察到改變 — -1.1 % Ag96.9 Ru0.1A13.0 未觀察到改變 — -0.7 % Ag98.4 Rul.5A10.1 未觀察到改變 — -0.9 % Ag97.0 Rul.5A11.5 未觀察到改變 — -0.5 % Ag95.5 Rul.5A13.0 未觀察到改變 — -0.5 % Ag96.9 Ru3.0A10.1 未觀察到改變 — -0.8 % Ag95.5 Ru3.0A11.5 未觀察到改變 — -1.0 % Ag94.0 Ru3.0A13.0 未觀察到改變 — -1.1 % Ag99.8Ru0.1Nb0.1 未觀察到改變 — -1.1 % Ag98.4RuO.lNbl.5 未觀察到改變 — -1.0 % Ag96.9Ru0.1Nb3.0 未觀察到改變 — -0.8 % Ag98.6Rul.5Nb0.1 未觀察到改變 — -0.8 % Ag97.0Rul.5Nbl.5 未觀察到改變 — -0.7 % Ag95.5Rul.5Nb3.0 未觀察到改變 — -0.7 % Ag96.9Ru3.0Nb0.1 未觀察到改變 — -1.0 % Ag95.5Ru3.0Nbl.5 未觀察到改變 — -0.5 % Ag94.0Ru3.0Nb3.0 未觀察到改變 — -0.4 % (請先閱讀背面之注意事項寫本頁) -------- ·#· 經濟部智慧財產局員工消費合作社印製 雖然在比較例中觀察到銀合金層表面的變化以及所伴 隨而來的反射率降低,這些現象都並未在實施例1之銀合 金層中所檢查的任何組成中觀察到,如同表2所顯示。 40NDA200104TW; P1P2000284TW 22 本紙張尺度適用中國國家標準(CNS)A4規格(210 X 297公釐) 1284746 經濟部智慧財產局員工消費合作社印制衣 A7 B7 五、發明說明(工3) 再者’石英基底,於其上沉積各種銀合金層且被加熱 到250 C ’更被放置於一 400°C的熱板上歷時二小時,於任 何檢查的組成之銀合金層中,都並未觀察到表面變化以及 反射率的降低(資料並未顯示)。 生產包含銀以及0.1-3.0重量百分比銅、鈦、鉻、鉬、 鉬、鎳、鋁或鈮、但未包含金、鈀或釕的銀合金反射層, 如同所述者,銀合金藉由同時濺鍍而沉積於石英基底上, 使得層的厚度爲15nm,觀察於250°C以及400°C隨著時間 層的視覺變化,所有這些層都變白,且反射率降低(資料 未顯不)。 綜合在一起可知,包含銀做爲主要成分、第一元素以 及第二元素的銀合金層具有更改進的耐熱性以及維持高反 射率。 實施例2 於這個實施例中,硏究三元銀合金層做爲反射型液晶 顯示裝置之反射體以及反射性接線電極的效用。No change was observed in Ag95.5Rul.5Mo3.0 - -1.1 % Ag96.9Ru3.0Mo0.1 No change observed - -0.8 % Ag95.5Ru3.OMol.5 No change observed - -0.7 % Ag94.0Ru3.0Mo3 .0 No change observed - -0.6 % Ag99.8Ru0.1Ni0.1 No change observed - -1.0 % Ag98.4RuO.lNi 1.5 No change observed - -1.1 % Ag96.9RuO.lNi 3.0 No change observed - -0.8 % Ag98.4Rul.5Ni 0.1 No change observed - -0.8 % Ag97.0Rul.5Ni 1.5 No change observed - -0.5 % Ag95.5Rul.5Ni 3.0 No change observed - -0.5 % Ag96.9Ru3.0Ni 0.1 No change observed - -0.7 % Ag95.5Ru3.0Ni 1.5 No change observed - -1.0 % Ag94.0Ru3.0Ni 3.0 No change observed - -1.1 % Ag99.8Ru 0.1A10.1 No change observed - 1.0 % Ag98.4 Ru0.1A11.5 No change observed - -1.1 % Ag96.9 Ru0.1A13.0 No change observed - -0.7 % Ag98.4 Rul.5A10.1 No change observed - -0.9 % No change was observed for Ag97.0 Rul.5A11.5 - -0.5 % Ag95.5 Rul.5A13.0 No change observed - -0.5 % Ag96.9 Ru3.0A10.1 No change observed - -0.8 % Ag95. 5 Ru3.0A11.5 not seen To change - -1.0 % Ag94.0 Ru3.0A13.0 No change observed - -1.1 % Ag99.8Ru0.1Nb0.1 No change observed - -1.1 % Ag98.4RuO.lNbl.5 No change observed - No change was observed in 1.0 % Ag96.9Ru0.1Nb3.0 - -0.8 % Ag98.6Rul.5Nb0.1 No change observed - -0.8 % Ag97.0Rul.5Nbl.5 No change observed - -0.7 % Ag95.5Rul .5Nb3.0 No change observed - -0.7 % Ag96.9Ru3.0Nb0.1 No change observed - -1.0 % Ag95.5Ru3.0Nbl.5 No change observed - -0.5 % Ag94.0Ru3.0Nb3.0 Not Observed changes - -0.4% (please read the notes on the back to write this page) -------- ·#· Ministry of Economic Affairs Intellectual Property Bureau employee consumption cooperative printing Although silver alloy layer was observed in the comparative example The change in surface and the accompanying decrease in reflectance were not observed in any of the compositions examined in the silver alloy layer of Example 1, as shown in Table 2. 40NDA200104TW; P1P2000284TW 22 The paper size is applicable to China National Standard (CNS) A4 specification (210 X 297 mm) 1284746 Ministry of Economic Affairs Intellectual Property Bureau employee consumption cooperative printing clothing A7 B7 V. Invention description (Work 3) Again, 'quartz base , depositing various silver alloy layers thereon and heating to 250 C ' was placed on a hot plate at 400 ° C for two hours, no surface change was observed in the silver alloy layer of any of the examined compositions. And a decrease in reflectance (data not shown). Producing a silver alloy reflective layer comprising silver and 0.1-3.0 weight percent copper, titanium, chromium, molybdenum, molybdenum, nickel, aluminum or niobium but not containing gold, palladium or rhodium, as described, the silver alloy is simultaneously splashed It was plated and deposited on a quartz substrate so that the thickness of the layer was 15 nm. When observed at 250 ° C and 400 ° C, the layers were whitened with a change in visual characteristics over time, and the reflectance was lowered (data not shown). Taken together, the silver alloy layer containing silver as a main component, a first element, and a second element has more improved heat resistance and maintains high reflectance. Embodiment 2 In this embodiment, the effect of the ternary silver alloy layer as a reflector of a reflective liquid crystal display device and a reflective wiring electrode is investigated.
執行對於化學穩定度的抗腐餓硏究,比較傳統金屬層 (純鋁、鋁合金、銀、二元銀合金)與本發明的三元銀合 金層。施加一液態抗蝕劑至反射層並且形成圖案於其上, 然後以鹼性溶液(5%氫氧化鉀水溶液)淸洗反射層以去除 抗鈾劑。觀察層的表面,結果顯示於表3中。 40NDA200104TW; P1P2000284TW 本紙張尺度適用中國國家標準(CNS)A4規格(210 X 297公釐) (請先閱讀背面之注意事項_填寫本頁) 寫太 ·11111111 1284746 Α7 Β7 五、發明說明( 表3 經濟部智慧財產局員工消費合作社印製 材料組成分(Wt%) 鹼性溶液 A1 完全反應 A196.0 Mg 4.0 完全反應 覆蓋有丙烯酸樹脂的鋁 部分反應 Ag98.0Pd2.0 許多黑色污點 Ag97.0Pd3.0 適度的黑色污點 Ag99.8 Pd 0.1 Cu 0.1 沒變 Ag99.4 Pd 0.5 Cu 0.1 沒變 Ag98.1 Pd 0.9 Cu 1.0 沒變 Ag98.9 Pd 1.0 Cu 0.1 沒變 Ag97.9 Pd 2.0 Cu 0.1 沒變 Ag96.9 Pd 3.0 Cu 0.1 沒變 Ag96.5 Pd 3.0 Cu0.5 沒變 Ag94.0 Pd 3.0 Cu 3.0 沒變 Ag99.8 Pd 0.1 Ti 0.1 沒變 Ag99.4 Pd 0.5 Ti 0.1 沒變 Ag98.1 Pd 0.9 Ti 1.0 沒變 Ag98.9 Pd 1.0 Ti 0.1 沒變 Ag97.9 Pd 2.0 Ti 0.1 沒變 Ag96.9 Pd 3.0 Ti 0.1 沒變 Ag96.5 Pd 3.0 Ti 0.5 沒變 Ag94.0 Pd 3.0 Ti 3.0 沒變 Ag99.8 Pd 0.1 Cr 0.1 沒變 Ag99.4 Pd 0.5 Cr 0.1 沒變 Ag98.1 Pd 0.9 Cr 1.0 沒變 Ag98.9 Pd 1.0 Cr 0.1 沒變 Ag97.9 Pd 2.0 Cr 0.1 沒變 Ag96.9 Pd 3.0 Cr 0.1 沒變 Ag96.5 Pd 3.0 Cr0.5 沒變 Ag94.0 Pd 3.0 Cr 3.0 沒變 Ag99.8 Pd 0.1 Ta 0.1 沒變 Ag98.4 Pd 0.1 Ta 1.5 沒變 Ag96.9 Pd 0.1 Ta 3.0 沒變 Ag98.4 Pd 1.5 Ta 0.1 沒變 Ag97.0 Pd 1.5 Ta 1.5 沒變 Ag95.5 Pd 1.5 Ta 3.0 沒變 Ag96.9 Pd 3.0 Ta 0.1 沒變 Ag95.5 Pd 3.0 Ta 1.5 沒變 Ag94.0 Pd 3.0 Ta 3.0 沒變 40NDA200104TW; P1P2000284TW 24 本紙張尺度適用中國國家標準(CNS)A4規格(210 X 297公釐) (請先閱讀背面之注意事項寫本頁) 寫女 111111. 1284746 A7 B7 五、發明說明us) 經濟部智慧財產局員工消費合作社印製The anti-corrosion test for chemical stability was performed, and the conventional metal layer (pure aluminum, aluminum alloy, silver, binary silver alloy) and the ternary silver alloy layer of the present invention were compared. A liquid resist was applied to the reflective layer and patterned thereon, and then the reflective layer was rinsed with an alkaline solution (5% potassium hydroxide aqueous solution) to remove the uranium-resistant agent. The surface of the layer was observed and the results are shown in Table 3. 40NDA200104TW; P1P2000284TW This paper size is applicable to China National Standard (CNS) A4 specification (210 X 297 mm) (please read the notes on the back _ fill out this page) Write too · 11111111 1284746 Α7 Β 7 V. Invention description (Table 3 Economy Ministry of Intellectual Property Bureau employees consumption cooperatives printed materials composition (Wt%) alkaline solution A1 complete reaction A196.0 Mg 4.0 complete reaction covered with acrylic resin aluminum partial reaction Ag98.0Pd2.0 many black stains Ag97.0Pd3.0 Moderate black stain Ag99.8 Pd 0.1 Cu 0.1 No change Ag99.4 Pd 0.5 Cu 0.1 No change Ag98.1 Pd 0.9 Cu 1.0 No change Ag98.9 Pd 1.0 Cu 0.1 No change Ag97.9 Pd 2.0 Cu 0.1 No change Ag96 .9 Pd 3.0 Cu 0.1 No change Ag96.5 Pd 3.0 Cu0.5 No change Ag94.0 Pd 3.0 Cu 3.0 No change Ag99.8 Pd 0.1 Ti 0.1 No change Ag99.4 Pd 0.5 Ti 0.1 No change Ag98.1 Pd 0.9 Ti 1.0 does not change Ag98.9 Pd 1.0 Ti 0.1 does not change Ag97.9 Pd 2.0 Ti 0.1 does not change Ag96.9 Pd 3.0 Ti 0.1 does not change Ag96.5 Pd 3.0 Ti 0.5 does not change Ag94.0 Pd 3.0 Ti 3.0 does not change Ag99 .8 Pd 0.1 Cr 0.1 No change Ag99.4 Pd 0.5 Cr 0.1 No change Ag98.1 Pd 0.9 Cr 1. 0 No change Ag98.9 Pd 1.0 Cr 0.1 No change Ag97.9 Pd 2.0 Cr 0.1 No change Ag96.9 Pd 3.0 Cr 0.1 No change Ag96.5 Pd 3.0 Cr0.5 No change Ag94.0 Pd 3.0 Cr 3.0 No change Ag99 .8 Pd 0.1 Ta 0.1 No change Ag98.4 Pd 0.1 Ta 1.5 No change Ag96.9 Pd 0.1 Ta 3.0 No change Ag98.4 Pd 1.5 Ta 0.1 No change Ag97.0 Pd 1.5 Ta 1.5 No change Ag95.5 Pd 1.5 Ta 3.0 No change Ag96.9 Pd 3.0 Ta 0.1 No change Ag95.5 Pd 3.0 Ta 1.5 No change Ag94.0 Pd 3.0 Ta 3.0 No change 40NDA200104TW; P1P2000284TW 24 This paper size applies to China National Standard (CNS) A4 specification (210 X 297 () Please read the notes on the back to write this page. Write female 111111. 1284746 A7 B7 V. Invention description us) Printed by the Ministry of Economic Affairs Intellectual Property Bureau employee consumption cooperative
Ag99.8 Pd 0.1 Mo 0.1 沒變 Ag98.4 Pd 0.1 Mo 1.5 沒變 Ag96.9 Pd 0.1 Mo 3.0 沒變 Ag98.4 Pd 1.5 Mo 0.1 沒變 Ag97.0 Pd 1.5 Mo 1.5 沒變 Ag95.5 Pd 1.5 Mo 3.0 沒變 Ag96.9 Pd 3.0 Mo 0.1 沒變 Ag95.5 Pd 3.0 Mo 1.5 沒變 Ag94.0 Pd 3.0 Mo 3.0 沒變 Ag99.8 Pd 0.1 Ni 0.1 沒變 Ag98.4 Pd 0.1 Ni 1.5 沒變 Ag96.9 Pd 0.1 Ni 3.0 沒變 Ag98.4 Pd 1.5 Ni 0.1 沒變 Ag97.0 Pd 1.5 Ni 1.5 沒變 Ag95.5 Pd 1.5 Ni 3.0 沒變 Ag96.9 Pd 3.0 Ni 0.1 沒變 Ag95.5 Pd 3.0 Ni 1.5 沒變 Ag94.0 Pd 3.0 Ni 3.0 沒變 Ag99.8 Pd 0.1 A1 0.1 沒變 Ag98.4 Pd 0.1 A1 1.5 沒變 Ag96.9 Pd 0.1 A1 3.0 沒變 Ag98.4 Pd 1.5 A1 0.1 沒變 Ag97.0 Pd 1.5 A1 1.5 沒變 Ag95.5 Pd 1.5 A1 3.0 沒變 Ag96.9 Pd 3.0 A1 0.1 沒變 Ag95.5 Pd 3.0 A1 1.5 沒變 Ag94.0 Pd 3.0 A1 3.0 沒變 Ag99.8 Pd 0.1 NbO.l 沒變 Ag98.4 Pd 0.1 Nb 1.5 沒變 Ag96.9 Pd 0.1 Nb 3.0 沒變 Ag98.4 Pd 1.5 Nb 0.1 沒變 Ag97.0 Pd 1.5 Nb 1.5 沒變 Ag95.5 Pd 1.5 Nb 3.0 沒變 Ag96.9 Pd 3.0 Nb 0.1 沒變 Ag95.5 Pd 3.0 Nb 1.5 沒變 Ag94.0 Pd 3.0 Nb 3.0 沒變 Ag99.8 Pd 0.1 AuO.l 沒變 Ag98.4 Pd 0.1 Au 1.5 沒變 Ag96.9 Pd 0.1 Au 3.0 沒變 Ag98.4 Pd 1.5 Au 0.1 沒變 Ag97.0 Pd 1.5 Au 1.5 沒變 40NDA200104TW; P1P2000284TW 25 本紙張尺度適用中國國家標準(CNS)A4規格(210 χ 297公釐) (請先閱讀背面之注意事項寫本頁)Ag99.8 Pd 0.1 Mo 0.1 No change Ag98.4 Pd 0.1 Mo 1.5 No change Ag96.9 Pd 0.1 Mo 3.0 No change Ag98.4 Pd 1.5 Mo 0.1 No change Ag97.0 Pd 1.5 Mo 1.5 No change Ag95.5 Pd 1.5 Mo 3.0 did not change Ag96.9 Pd 3.0 Mo 0.1 did not change Ag95.5 Pd 3.0 Mo 1.5 did not change Ag94.0 Pd 3.0 Mo 3.0 did not change Ag99.8 Pd 0.1 Ni 0.1 did not change Ag98.4 Pd 0.1 Ni 1.5 did not change Ag96 .9 Pd 0.1 Ni 3.0 No change Ag98.4 Pd 1.5 Ni 0.1 No change Ag97.0 Pd 1.5 Ni 1.5 No change Ag95.5 Pd 1.5 Ni 3.0 No change Ag96.9 Pd 3.0 Ni 0.1 No change Ag95.5 Pd 3.0 Ni 1.5 No change Ag94.0 Pd 3.0 Ni 3.0 No change Ag99.8 Pd 0.1 A1 0.1 No change Ag98.4 Pd 0.1 A1 1.5 No change Ag96.9 Pd 0.1 A1 3.0 No change Ag98.4 Pd 1.5 A1 0.1 No change Ag97. 0 Pd 1.5 A1 1.5 No change Ag95.5 Pd 1.5 A1 3.0 No change Ag96.9 Pd 3.0 A1 0.1 No change Ag95.5 Pd 3.0 A1 1.5 No change Ag94.0 Pd 3.0 A1 3.0 No change Ag99.8 Pd 0.1 NbO. l No change Ag98.4 Pd 0.1 Nb 1.5 No change Ag96.9 Pd 0.1 Nb 3.0 No change Ag98.4 Pd 1.5 Nb 0.1 No change Ag97.0 Pd 1.5 Nb 1.5 No change Ag95.5 Pd 1.5 Nb 3.0 No change to Ag96. 9 Pd 3.0 Nb 0.1 No change Ag95.5 Pd 3.0 N b 1.5 No change Ag94.0 Pd 3.0 Nb 3.0 No change Ag99.8 Pd 0.1 AuO.l No change Ag98.4 Pd 0.1 Au 1.5 No change Ag96.9 Pd 0.1 Au 3.0 No change Ag98.4 Pd 1.5 Au 0.1 No change Ag97.0 Pd 1.5 Au 1.5 has not changed 40NDA200104TW; P1P2000284TW 25 This paper size is applicable to China National Standard (CNS) A4 specification (210 297 297 mm) (Please read the note on the back first to write this page)
,· Γ -I 1 _1 ϋ ϋ ·ϋ ϋ ϋ -ϋ ϋ I 1284746 A7 B7 五、發明說明(义) 經濟部智慧財產局員工消費合作社印製,· Γ -I 1 _1 ϋ ϋ ·ϋ ϋ ϋ -ϋ ϋ I 1284746 A7 B7 V. Invention Description (Ire) Printed by the Ministry of Economic Affairs, Intellectual Property Bureau, Staff Consumer Cooperative
Ag95.5 Pd 1.5 Au 3.0 沒變 Ag96.9 Pd 3.0 Au 0.1 沒變 Ag95.5 Pd 3.0 Au 1.5 沒變 Ag94.0 Pd 3.0 Au 3.0 沒變 Ag99.8 Pd 0.1 AuO.l 沒變 Ag98.4 Pd 0.1 Au 1.5 沒變 Ag96.9 Pd 0.1 Au 3.0 沒變 Ag98.4 Pd 1.5 Au 0.1 沒變 Ag97.0 Pd 1.5 Au 1.5 沒變 Ag95.5 Pd 1.5 Au 3.0 沒變 Ag96.9 Pd 3.0 Au 0.1 沒變 Ag95.5 Pd 3.0 Au 1.5 沒變 Ag94.0 Pd 3.0 Au 3.0 沒變 Ag99.8 Pd 0.1 RuO.l 沒變 Ag98.4 Pd 0.1 Ru 1.5 沒變 Ag96.9 Pd 0.1 Ru 3.0 沒變 Ag98.4 Pd 1.5 Ru 0.1 沒變 Ag97.0 Pd 1.5 Ru 1.5 沒變 Ag95.5 Pd 1.5 Ru 3.0 沒變 Ag96.9 Pd 3.0 Ru 0.1 沒變 Ag95.5 Pd 3.0 Ru 1.5 沒變 Ag94.0 Pd 3.0 Ru 3.0 沒變Ag95.5 Pd 1.5 Au 3.0 No change Ag96.9 Pd 3.0 Au 0.1 No change Ag95.5 Pd 3.0 Au 1.5 No change Ag94.0 Pd 3.0 Au 3.0 No change Ag99.8 Pd 0.1 AuO.l No change Ag98.4 Pd 0.1 Au 1.5 No change Ag96.9 Pd 0.1 Au 3.0 No change Ag98.4 Pd 1.5 Au 0.1 No change Ag97.0 Pd 1.5 Au 1.5 No change Ag95.5 Pd 1.5 Au 3.0 No change Ag96.9 Pd 3.0 Au 0.1 No change Ag95.5 Pd 3.0 Au 1.5 No change Ag94.0 Pd 3.0 Au 3.0 No change Ag99.8 Pd 0.1 RuO.l No change Ag98.4 Pd 0.1 Ru 1.5 No change Ag96.9 Pd 0.1 Ru 3.0 No change Ag98.4 Pd 1.5 Ru 0.1 did not change Ag97.0 Pd 1.5 Ru 1.5 did not change Ag95.5 Pd 1.5 Ru 3.0 did not change Ag96.9 Pd 3.0 Ru 0.1 did not change Ag95.5 Pd 3.0 Ru 1.5 did not change Ag94.0 Pd 3.0 Ru 3.0 did not change
AgAuX 表 3 (續) 材料組成分(wt%) 鹼性溶液 Ag98.0Au2.0 許多黑色污點 Ag97.0Au3.0 適度的黑色污點 Ag99.8AuO. 1 CuO. 1 沒變 Ag99.4Au0.5Cu0.1 沒變 Ag98.1Au0.9Cul.0 沒變 Ag98.9Aul.0Cu0.1 沒變 Ag97.9Au2.0Cu0」 沒變 Ag96.9Au3 .OCuO. 1 沒變 Ag96.5Au3.0Cu0.5 沒變 Ag94.0Au3.0Cu3.0 沒變 Ag99.8Au0.1Ti0.1 沒變 Ag99.4Au0.5Ti0.1 沒變 Ag98.1Au0.9Til.0 沒變 40NDA200104TW; P1P2000284TW 26 (請先閱讀背面之注意事項寫本頁) 本紙張尺度適用中國國家標準(CNS)A4規格(210 X 297公釐) 1284746 A7 B7 五、發明說明(Jl/]) 經濟部智慧財產局員工消費合作社印製AgAuX Table 3 (continued) Material composition (wt%) Alkaline solution Ag98.0Au2.0 Many black stains Ag97.0Au3.0 Moderate black stain Ag99.8AuO. 1 CuO. 1 No change Ag99.4Au0.5Cu0.1 No change Ag98.1Au0.9Cul.0 No change Ag98.9Aul.0Cu0.1 No change Ag97.9Au2.0Cu0" No change Ag96.9Au3 .OCuO. 1 No change Ag96.5Au3.0Cu0.5 No change Ag94.0Au3. 0Cu3.0 does not change Ag99.8Au0.1Ti0.1 does not change Ag99.4Au0.5Ti0.1 does not change Ag98.1Au0.9Til.0 does not change 40NDA200104TW; P1P2000284TW 26 (please read the back note before writing this page) This paper The scale applies to China National Standard (CNS) A4 specification (210 X 297 mm) 1284746 A7 B7 V. Invention Description (Jl/]) Ministry of Economic Affairs Intellectual Property Bureau employee consumption cooperative printing
Ag98.9Aul.0Ti0.1 沒變 Ag97.9Au2.0Ti0.1 沒變 Ag96.9Au3.0Ti0.1 沒變 Ag96.5Au3.0Ti0.5 沒變 Ag94.0Au3.0Ti3.0 沒變 Ag99.8Au0.1Cr0.1 沒變 Ag98.4AuO.lCrl.5 沒變 Ag96.9Au0.1Cr3.0 沒變 Ag98.4Aul.5Cr0.1 沒變 Ag97.0Aul.5Crl.5 沒變 Ag95.5Aul .5Cr3.0 沒變 Ag96.9Au3.0Cr0.1 沒變 Ag95.5Au3.0Crl .5 沒變 Ag94.0Au3.0Cr3.0 沒變 Ag98.4AuO.lTal.5 沒變 Ag96.9Au0.1Ta3.0 沒變 Ag98.4Aul.5Ta0.1 沒變 Ag97.0Aul .5Tal .5 沒變 Ag95.5Aul.5Ta3.0 沒變 Ag96.9Au3.0Ta0.1 沒變 Ag95.5Au3.0Tal.5 沒變 Ag94.0Au3.0Ta3.0 沒變 Ag99.8Au0.1Mo0.1 沒變 Ag98.4AuO. IMol .5 沒變 Ag96.9Au0.1Mo3.0 沒變 Ag98.4Aul.5Mo0.1 沒變 Ag97.0Aul.5Mol.5 沒變 Ag95.5Aul.5Mo3.0 沒變 Ag96.9Au3.0Mo0.1 沒變 Ag95.5Au3.0Mol .5 沒變 Ag94.0Au3.0Mo3.0 沒變 Ag99.8Au0.1Ni0.1 沒變 Ag98.4AuO.lNil.5 沒變 Ag96.9Au0.1Ni3.0 沒變 Ag98.4Aul.5NiO. 1 沒變 Ag97.0Aul.5Nil.5 沒變 Ag95.5Aul.5Ni3.0 沒變 Ag96.9Au3.0Ni0.1 沒變 Ag95.5Au3.0Nil.5 沒變 Ag94.0Au3.0Ni3.0 沒變 Ag99.8Au0.1A10.1 沒變 40NDA200104TW; P1P2000284TW 27 本紙張尺度適用中國國家標準(CNS)A4規格(210 X 297公釐) (請先閱讀背面之注意事項寫本頁) 寫夫 trA--------- 1284746 A7 B7 五、發明說明(工8)Ag98.9Aul.0Ti0.1 does not change Ag97.9Au2.0Ti0.1 does not change Ag96.9Au3.0Ti0.1 does not change Ag96.5Au3.0Ti0.5 does not change Ag94.0Au3.0Ti3.0 does not change Ag99.8Au0.1Cr0 .1 did not change Ag98.4AuO.lCrl.5 did not change Ag96.9Au0.1Cr3.0 did not change Ag98.4Aul.5Cr0.1 did not change Ag97.0Aul.5Crl.5 did not change Ag95.5Aul .5Cr3.0 did not change Ag96 .9Au3.0Cr0.1 has not changed Ag95.5Au3.0Crl .5 has not changed Ag94.0Au3.0Cr3.0 has not changed Ag98.4AuO.lTal.5 has not changed Ag96.9Au0.1Ta3.0 has not changed Ag98.4Aul.5Ta0. 1 No change Ag97.0Aul .5Tal .5 No change Ag95.5Aul.5Ta3.0 No change Ag96.9Au3.0Ta0.1 No change Ag95.5Au3.0Tal.5 No change Ag94.0Au3.0Ta3.0 No change Ag99. 8Au0.1Mo0.1 did not change Ag98.4AuO. IMol .5 did not change Ag96.9Au0.1Mo3.0 did not change Ag98.4Aul.5Mo0.1 did not change Ag97.0Aul.5Mol.5 did not change Ag95.5Aul.5Mo3.0 Ag96.9Au3.0Mo0.1 has not changed Ag95.5Au3.0Mol .5 has not changed Ag94.0Au3.0Mo3.0 has not changed Ag99.8Au0.1Ni0.1 has not changed Ag98.4AuO.lNil.5 has not changed Ag96.9Au0 .1Ni3.0 did not change Ag98.4Aul.5NiO. 1 did not change Ag97.0Aul.5Nil.5 did not change Ag95.5Aul.5Ni3.0 did not change Ag96.9Au3.0Ni0.1 did not change Ag95.5Au3.0Nil.5 No Change Ag94.0Au3.0Ni3.0 No change Ag99.8Au0.1A10.1 No change 40NDA200104TW; P1P2000284TW 27 This paper scale applies to China National Standard (CNS) A4 specification (210 X 297 mm) (Please read the note on the back to write this page) Writer trA- -------- 1284746 A7 B7 V. Description of the invention (Work 8)
Ag98.4AuO.lAll.5 沒變 Ag96.9Au0.1A13.0 沒變 Ag98.4Aul.5A10.1 沒變 Ag97.0Aul.5All.5 沒變 Ag95.5Aul.5A13.0 沒變 Ag96.9Au3.0A10.1 沒變 Ag95.5Au3.0All.5 沒變 Ag94.0Au3.0A13.0 沒變 Ag99.8Au0.1Nb0.1 沒變 Ag98.4AuO.lNbl.5 沒變 Ag96.9Au0.1Nb3.0 沒變 Ag98.4Aul.5Nb0.1 沒變 Ag97.0Aul.5Nbl.5 沒變 Ag95.5Aul.5Nb3.0 沒變 Ag96.9Au3.0Nb0.1 沒變 Ag95.5Au3.0Nbl.5 沒變 Ag94.0Au3.0Nb3.0 沒變 (請先閱讀背面之注意事項寫本頁) 經濟部智慧財產局員工消費合作社印製Ag98.4AuO.lAll.5 has not changed Ag96.9Au0.1A13.0 has not changed Ag98.4Aul.5A10.1 has not changed Ag97.0Aul.5All.5 has not changed Ag95.5Aul.5A13.0 has not changed Ag96.9Au3.0A10 .1 has not changed Ag95.5Au3.0All.5 has not changed Ag94.0Au3.0A13.0 has not changed Ag99.8Au0.1Nb0.1 has not changed Ag98.4AuO.lNbl.5 has not changed Ag96.9Au0.1Nb3.0 has not changed Ag98 .4Aul.5Nb0.1 No change Ag97.0Aul.5Nbl.5 No change Ag95.5Aul.5Nb3.0 No change Ag96.9Au3.0Nb0.1 No change Ag95.5Au3.0Nbl.5 No change Ag94.0Au3.0Nb3. 0 No change (please read the note on the back first to write this page) Printed by the Consumer Intellectual Property Office of the Ministry of Economic Affairs
AgRuX 表 3 (續) 材料組成分(wt%) 鹼性溶液 Ag98.0Ru2.0 許多黑色污點 Ag97.0Ru3.0 適度的黑色污點 Ag99.8Ru0.1Cu0.1 沒變 Ag99.4Ru0.5Cu0.1 沒變 Ag98.1Ru0.9Cul.0 沒變 Ag98.9Rul.0Cu0.1 沒變 Ag97.9Ru2.0Cu0.1 沒變 Ag96.9Ru3.0Cu0.1 沒變 Ag96.5Ru3.0Cu0.5 沒變 Ag94.0Ru3.0Cu3.0 沒變 Ag99.8Ru0.1Ti0.1 沒變 Ag99.4Ru0.5Ti0.1 沒變 Ag98.1Ru0.9Til.0 沒變 Ag98.9Rul.0Ti0.1 沒變 Ag97.9Ru2.0Ti0」 沒變 Ag96.9Ru3.0Ti0] 沒變 Ag96.5Ru3.0Ti0.5 沒變 Ag94.0Ru3.0Ti3.0 沒變 40NDA200104TW; P1P2000284TW 28 本紙張尺度適用中國國家標準(CNS)A4規格(210 X 297公釐) 1111111 ·« 1284746 A7 B7 五、發明說明(>q) 經濟部智慧財產局員工消費合作社印製AgRuX Table 3 (continued) Material composition (wt%) Alkaline solution Ag98.0Ru2.0 Many black stains Ag97.0Ru3.0 Moderate black stain Ag99.8Ru0.1Cu0.1 No change Ag99.4Ru0.5Cu0.1 No Change Ag98.1Ru0.9Cul.0 No change Ag98.9Rul.0Cu0.1 No change Ag97.9Ru2.0Cu0.1 No change Ag96.9Ru3.0Cu0.1 No change Ag96.5Ru3.0Cu0.5 No change Ag94.0Ru3. 0Cu3.0 did not change Ag99.8Ru0.1Ti0.1 did not change Ag99.4Ru0.5Ti0.1 did not change Ag98.1Ru0.9Til.0 did not change Ag98.9Rul.0Ti0.1 did not change Ag97.9Ru2.0Ti0" did not change Ag96 .9Ru3.0Ti0] Ag96.5Ru3.0Ti0.5 has not changed Ag94.0Ru3.0Ti3.0 has not changed 40NDA200104TW; P1P2000284TW 28 This paper scale applies to China National Standard (CNS) A4 specification (210 X 297 mm) 1111111 · « 1284746 A7 B7 V. Description of invention (>q) Printed by the Ministry of Economic Affairs, Intellectual Property Bureau, Staff Consumer Cooperative
Ag99.8Ru0.1Cr0.1 沒變 Ag98.4RuO.lCrl.5 沒變 Ag96.9Ru0.1Cr3.0 沒變 Ag98.4Rul.5Cr0.1 沒變 Ag97.0Rul.5Crl.5 沒變 Ag95.5Rul .5Cr3.0 沒變 Ag96.9Ru3.0Cr0.1 沒變 Ag95.5Ru3.0Crl.5 沒變 Ag94.0Ru3.0Cr3.0 沒變 Ag98.4RuO.lTal.5 沒變 Ag96.9Ru0.1Ta3.0 沒變 Ag98.4Rul.5Ta0.1 沒變 Ag97.0Rul.5Tal.5 沒變 Ag95.5Rul.5Ta3.0 沒變 Ag96.9Ru3.0Ta0.1 沒變 Ag95.5Ru3.0Tal .5 沒變 Ag94.0Ru3.0Ta3.0 沒變 Ag99.8Ru0.1Mo0.1 沒變 Ag98.4RuO.lMol.5 沒變 Ag96.9Ru0.1Mo3.0 沒變 Ag98.4Rul.5Mo0.1 沒變 Ag97.0Rul.5Mol.5 沒變 Ag95.5Rul .5M〇3.0 沒變 Ag96.9Ru3.0Mo0.1 沒變 Ag95.5Ru3.0Mol.5 沒變 Ag94.0Ru3.0Mo3.0 沒變 Ag99.8Ru0.1Ni0.1 沒變 Ag98.4RuO.lNil.5 沒變 Ag96.9Ru0.1Ni3.0 沒變 Ag98.4Rul.5Ni0.1 沒變 Ag97.0Rul.5Nil.5 沒變 Ag95.5Rul.5Ni3.0 沒變 Ag96.9Ru3.0Ni0.1 沒變 Ag95.5Ru3.0Nil.5 沒變 Ag94.0Ru3.0Ni3.0 沒變 Ag99.8Ru0.1A10.1 沒變 Ag98.4RuO.lAll.5 沒變 Ag96.9Ru0.1A13.0 沒變 Ag98.4Rul.5A10.1 沒變 Ag97.0Rul.5All.5 沒變 Ag95.5Rul.5A13.0 沒變 40NDA200104TW: P1P2000284TW 29 本紙張尺度適用中國國家標準(CNS)A4規格(210 X 297公釐) (請先閱讀背面之注意事項寫本頁) 寫太 — — — — — — — — — 1284746 A7 〜-------B7 五、發明說明(3〇)Ag99.8Ru0.1Cr0.1 has not changed Ag98.4RuO.lCrl.5 has not changed Ag96.9Ru0.1Cr3.0 has not changed Ag98.4Rul.5Cr0.1 has not changed Ag97.0Rul.5Crl.5 has not changed Ag95.5Rul .5Cr3 .0 No change Ag96.9Ru3.0Cr0.1 No change Ag95.5Ru3.0Crl.5 No change Ag94.0Ru3.0Cr3.0 No change Ag98.4RuO.lTal.5 No change Ag96.9Ru0.1Ta3.0 No change Ag98 .4Rul.5Ta0.1 No change Ag97.0Rul.5Tal.5 No change Ag95.5Rul.5Ta3.0 No change Ag96.9Ru3.0Ta0.1 No change Ag95.5Ru3.0Tal .5 No change Ag94.0Ru3.0Ta3. 0 No change Ag99.8Ru0.1Mo0.1 No change Ag98.4RuO.lMol.5 No change Ag96.9Ru0.1Mo3.0 No change Ag98.4Rul.5Mo0.1 No change Ag97.0Rul.5Mol.5 No change Ag95. 5Rul .5M〇3.0 No change Ag96.9Ru3.0Mo0.1 No change Ag95.5Ru3.0Mol.5 No change Ag94.0Ru3.0Mo3.0 No change Ag99.8Ru0.1Ni0.1 No change Ag98.4RuO.lNil.5 No change Ag96.9Ru0.1Ni3.0 No change Ag98.4Rul.5Ni0.1 No change Ag97.0Rul.5Nil.5 No change Ag95.5Rul.5Ni3.0 No change Ag96.9Ru3.0Ni0.1 No change Ag95.5Ru3 .0Nil.5 No change Ag94.0Ru3.0Ni3.0 No change Ag99.8Ru0.1A10.1 No change Ag98.4RuO.lAll.5 No change Ag96.9Ru0.1A13.0 No change Ag98.4Rul.5A10.1 No Change Ag97.0Rul.5All.5 No Change Ag95.5Rul.5A13.0 No change 40NDA200104TW: P1P2000284TW 29 This paper size applies to China National Standard (CNS) A4 specification (210 X 297 mm) (Please read the back note before writing this page) Write too — — — — — — — — 1284746 A7 ~-------B7 V. Description of invention (3〇)
Ag96.9Ru3.0A10.1 沒變 Ag95.5Ru3.0All.5 沒變 Ag94.0Ru3.0A13.0 沒變 Ag99.8Ru0.1Nb0.1 沒變 Ag98.4RuO.lNbl.5 沒變 Ag96.9Ru0.1Nb3.0 沒變 Ag98.4Rul.5Nb0.1 沒變 Ag97.0Rul.5Nbl.5 沒變 Ag95.5Rul.5Nb3.0 沒變 Ag96.9Ru3.0Nb0.1 沒變 Ag95.5Ru3.0Nbl.5 沒變 Ag94.0Ru3.0Nb3.0 沒變 如表3中所示,於本發明之任何組成分的銀合金層中, 並未觀察到反射率的降低,因此,三元銀合金層比傳統層 對於鹼性溶液更加穩定,並且發明層的品質比傳統層還要 優異。 接下來,量測於500nm以及800nm的反射率,從500 到800nm的範圍( 565nm)是液晶顯示裝置的標準光學波 長範圍。如表4所示,本發明之三元銀合金層的反射率相 較於銘、銀合金、銀、二元銀合金層,改進0.5-3.0%。 (請先閱讀背面之注意事項_ ϋ ϋ I I ϋ I ϋ^OJ·1111— I _ 本頁) •線φφ_ 經濟部智慧財產局員工消費合作社印製 表4 材料組成分(wt%) 500mm波長 800mm波長 反射率(%) 反射率(%) A1 87.2 84.5 A196.0 Mg 4.0 83.1 82.3 覆蓋有丙烯酸樹脂的鋁 79.4 76.6 Ag 98.2 98.8 Ag98.0Pd2.0 91.3 94.5 Ag97.0Pd3.0 86.9 92.1 Ag99.8 Pd 0.1 Cu 0.1 98.0 ~ 98.4 Ag99.4 Pd 0.5 Cu 0.1 98.0 98.4 Ag98.1 Pd 0.9 Cu 1.0 97.8 98.0 40NDA200104TW; P1P2000284TW 30 ^紙張尺度適用中國國家標準(CNS)A4規格(210 X 297公釐) 1284746 A7 B7 經濟部智慧財產局員工消費合作社印製Ag96.9Ru3.0A10.1 has not changed Ag95.5Ru3.0All.5 has not changed Ag94.0Ru3.0A13.0 has not changed Ag99.8Ru0.1Nb0.1 has not changed Ag98.4RuO.lNbl.5 has not changed Ag96.9Ru0.1Nb3 .0 No change Ag98.4Rul.5Nb0.1 No change Ag97.0Rul.5Nbl.5 No change Ag95.5Rul.5Nb3.0 No change Ag96.9Ru3.0Nb0.1 No change Ag95.5Ru3.0Nbl.5 No change Ag94 .0Ru3.0Nb3.0 has not changed as shown in Table 3, in the silver alloy layer of any of the components of the present invention, no decrease in reflectance is observed, and therefore, the ternary silver alloy layer is more alkaline than the conventional layer. The solution is more stable and the quality of the inventive layer is superior to conventional layers. Next, the reflectance at 500 nm and 800 nm is measured, and the range from 500 to 800 nm (565 nm) is a standard optical wavelength range of the liquid crystal display device. As shown in Table 4, the reflectance of the ternary silver alloy layer of the present invention was improved by 0.5 to 3.0% as compared with the inscription, silver alloy, silver, and binary silver alloy layers. (Please read the notes on the back first _ ϋ ϋ II ϋ I ϋ^OJ·1111—I _ this page) • Line φφ_ Ministry of Economic Affairs Intellectual Property Bureau Staff Consumer Cooperative Printed Table 4 Material Composition (wt%) 500mm Wavelength 800mm Wavelength reflectance (%) Reflectance (%) A1 87.2 84.5 A196.0 Mg 4.0 83.1 82.3 Aluminum covered with acrylic resin 79.4 76.6 Ag 98.2 98.8 Ag98.0Pd2.0 91.3 94.5 Ag97.0Pd3.0 86.9 92.1 Ag99.8 Pd 0.1 Cu 0.1 98.0 ~ 98.4 Ag99.4 Pd 0.5 Cu 0.1 98.0 98.4 Ag98.1 Pd 0.9 Cu 1.0 97.8 98.0 40NDA200104TW; P1P2000284TW 30 ^ Paper scale applicable to China National Standard (CNS) A4 specification (210 X 297 mm) 1284746 A7 B7 Ministry of Economic Affairs, Intellectual Property Bureau, employee consumption cooperative, printing
Ag98.9 Pd 1.0 Cu 0.1 94.4 97.6 Ag97.9 Pd 2.0 Cu 0.1 91.4 94.6 Ag96.9 Pd 3.0 Cu 0.1 87.5 93.4 Ag96.5 Pd 3.0 Cu0.5 87.3 92.7 Ag94.0 Pd 3.0 Cu 3.0 84.7 91.1 Ag99.8 Pd 0.1 Ti 0.1 98.0 98.6 Ag99.4 Pd 0.5 Ti 0.1 98.0 98.4 Ag98.1 Pd 0.9 Ti 1.0 97.6 97.9 Ag98.9 Pd 1.0 Ti 0.1 94.4 97.6 Ag97.9 Pd 2.0 Ti 0.1 91.4 94.6 Ag96.9 Pd 3.0 Ti 0.1 87.5 93.4 Ag96.5 Pd 3.0 Ti 0.5 87.0 92.5 Ag94.0 Pd 3.0 Ti 3.0 87.0 90.7 Ag99.8 Pd 0.1 Cr 0.1 94.6 94.7 Ag98.4 Pd 0.1 Cr 1.5 91.7 91.7 Ag96.9 Pd 0.1 Cr 3.0 89.3 89.7 Ag98.4 Pd 1.5 Cr 0.1 91.5 90.7 Ag97.0 Pd 1.5 Cr 1.5 86.8 86.8 Ag95.5 Pd 1.5 Cr 3.0 84.2 84.2 Ag96.9 Pd 3.0 Cr 0.1 85.6 85.6 Ag95.5 Pd 3.0 Cr 1.5 83.5 83.5 Ag94.0 Pd 3.0 Cr 3.0 82.7 82.7 Ag99.8 Pd 0.1 Ta 0.1 94.6 94.7 Ag98.4 Pd 0.1 Ta 1.5 91.7 91.7 Ag96.9 Pd 0.1 Ta 3.0 89.3 89.7 Ag98.4 Pd 1.5 Ta 0.1 91.5 91.7 Ag97.0 Pd 1.5 Ta 1.5 86.8 86.8 Ag95.5 Pd 1.5 Ta 3.0 84.2 84.2 Ag96.9 Pd 3.0 Ta 0.1 85.6 85.6 Ag95.5 Pd 3.0 Ta 1.5 83.5 83.5 Ag94.0 Pd 3.0 Ta 3.0 82.7 82.7 Ag99.8 Pd 0.1 Mo 0.1 94.6 94.7 Ag98.4 Pd 0.1 Mo 1.5 91.7 91.7 Ag96.9 Pd 0.1 Mo 3.0 89.3 89.7 Ag98.4 Pd 1.5 Mo 0.1 91.5 91.7 Ag97.0 Pd 1.5 Mo 1.5 86.8 86.8 Ag95.5 Pd 1.5 Mo 3.0 84.2 84.2 Ag96.9 Pd 3.0 Mo 0.1 85.6 85.6 Ag95.5 Pd 3.0 Mo 1.5 83.5 83.5 Ag94.0 Pd 3.0 Mo 3.0 82.7 82.7 Ag99.8 Pd 0.1 Ni 0.1 96.1 96.1 Ag98.4 Pd 0.1 Ni 1.5 95.6 95.6 Ag96.9 Pd 0.1 Ni 3.0 94.3 94.8 40NDA200104TW; P1P2000284TW 31 本紙張尺度適用中國國家標準(CNS)A4規格(210 X 297公釐) I i_i a— 1 .^1 I ϋ 一:OJ ϋ 1 an ei ϋ (請先閱讀背面之注意事項寫本頁) 寫太 線ΦΦ· 1284746 A7 B7 五、發明說明(31) 經濟部智慧財產局員工消費合作社印製Ag98.9 Pd 1.0 Cu 0.1 94.4 97.6 Ag97.9 Pd 2.0 Cu 0.1 91.4 94.6 Ag96.9 Pd 3.0 Cu 0.1 87.5 93.4 Ag96.5 Pd 3.0 Cu0.5 87.3 92.7 Ag94.0 Pd 3.0 Cu 3.0 84.7 91.1 Ag99.8 Pd 0.1 Ti 0.1 98.0 98.6 Ag99.4 Pd 0.5 Ti 0.1 98.0 98.4 Ag98.1 Pd 0.9 Ti 1.0 97.6 97.9 Ag98.9 Pd 1.0 Ti 0.1 94.4 97.6 Ag97.9 Pd 2.0 Ti 0.1 91.4 94.6 Ag96.9 Pd 3.0 Ti 0.1 87.5 93.4 Ag96.5 Pd 3.0 Ti 0.5 87.0 92.5 Ag94.0 Pd 3.0 Ti 3.0 87.0 90.7 Ag99.8 Pd 0.1 Cr 0.1 94.6 94.7 Ag98.4 Pd 0.1 Cr 1.5 91.7 91.7 Ag96.9 Pd 0.1 Cr 3.0 89.3 89.7 Ag98.4 Pd 1.5 Cr 0.1 91.5 90.7 Ag97.0 Pd 1.5 Cr 1.5 86.8 86.8 Ag95.5 Pd 1.5 Cr 3.0 84.2 84.2 Ag96.9 Pd 3.0 Cr 0.1 85.6 85.6 Ag95.5 Pd 3.0 Cr 1.5 83.5 83.5 Ag94.0 Pd 3.0 Cr 3.0 82.7 82.7 Ag99 .8 Pd 0.1 Ta 0.1 94.6 94.7 Ag98.4 Pd 0.1 Ta 1.5 91.7 91.7 Ag96.9 Pd 0.1 Ta 3.0 89.3 89.7 Ag98.4 Pd 1.5 Ta 0.1 91.5 91.7 Ag97.0 Pd 1.5 Ta 1.5 86.8 86.8 Ag95.5 Pd 1.5 Ta 3.0 84.2 84.2 Ag96.9 Pd 3.0 Ta 0.1 85.6 85.6 Ag95.5 Pd 3.0 Ta 1.5 83.5 83.5 Ag94.0 Pd 3.0 Ta 3.0 82.7 82.7 Ag99.8 Pd 0.1 Mo 0.1 94.6 94.7 Ag98.4 Pd 0.1 Mo 1.5 91.7 91.7 Ag96.9 Pd 0.1 Mo 3.0 89.3 89.7 Ag98.4 Pd 1.5 Mo 0.1 91.5 91.7 Ag97.0 Pd 1.5 Mo 1.5 86.8 86.8 Ag95.5 Pd 1.5 Mo 3.0 84.2 84.2 Ag96.9 Pd 3.0 Mo 0.1 85.6 85.6 Ag95.5 Pd 3.0 Mo 1.5 83.5 83.5 Ag94.0 Pd 3.0 Mo 3.0 82.7 82.7 Ag99.8 Pd 0.1 Ni 0.1 96.1 96.1 Ag98.4 Pd 0.1 Ni 1.5 95.6 95.6 Ag96.9 Pd 0.1 Ni 3.0 94.3 94.8 40NDA200104TW; P1P2000284TW 31 This paper size is applicable to China National Standard (CNS) A4 specification (210 X 297 mm) I i_i a-1.^1 I ϋ One: OJ ϋ 1 an ei ϋ (Please read the back first Note on this page) Write the line ΦΦ· 1284746 A7 B7 V. Description of the invention (31) Ministry of Economic Affairs, Intellectual Property Bureau, employee consumption cooperative, printing
Ag98.4 Pd 1.5 Ni 0.1 92.7 93.7 Ag97.0 Pd 1.5 Ni 1.5 91.2 92.1 Ag95.5 Pd 1.5 Ni 3.0 88.9 90.7 Ag96.9 Pd 3.0 Ni 0.1 86.1 88.9 Ag95.5 Pd 3.0 Ni 1.5 84.6 86.2 Ag94.0 Pd 3.0 Ni 3.0 82.7 84.6 Ag99.8 Pd 0.1 A1 0.1 98.1 98.7 Ag98.4 Pd 0.1 A1 1.5 98.1 98.4 Ag96.9 Pd 0.1 A1 3.0 97.6 98.1 Ag98.4 Pd 1.5 A1 0.1 96.5 97.6 Ag97.0 Pd 1.5 A1 1.5 95.3 96.8 Ag95.5 Pd 1.5 A1 3.0 93.5 95.9 Ag96.9 Pd 3.0 A1 0.1 91 94.6 Ag95.5 Pd 3.0 A1 1.5 88.6 93 Ag94.0 Pd 3.0 A1 3.0 86.1 91.7 Ag99.8 Pd 0.1 NbO.l 95 95.3 Ag98.4 Pd 0.1 Nb 1.5 94.4 94.8 Ag96.9 Pd 0.1 Nb 3.0 93.8 94.2 Ag98.4 Pd 1.5 Nb 0.1 92.4 92.7 Ag97.0 Pd 1.5 Nb 1.5 90.8 91.4 Ag95.5 Pd 1.5 Nb 3.0 89.5 90.2 Ag96.9 Pd 3.0 Nb 0.1 86.7 87.9 Ag95.5 Pd 3.0 Nb 1.5 84.6 85.9 Ag94.0 Pd 3.0 Nb 3.0 82.7 84.7 Ag99.8 Pd 0.1 AuO.l 96.7 97.0 Ag98.4 Pd 0.1 Au 1.5 95.4 96.8 Ag96.9 Pd 0.1 Au 3.0 95.8 96.1 Ag98.4 Pd 1.5 Au 0.1 92.3 94.5 Ag97.0 Pd 1.5 Au 1.5 92.1 94.3 Ag95.5 Pd 1.5 Au 3.0 92.4 95.0 Ag96.9 Pd 3.0 Au 0.1 85.1 85.3 Ag95.5 Pd 3.0 Au 1.5 83.2 83.3 Ag94.0 Pd 3.0 Au 3.0 82.0 1 82.8 Ag99.8 Pd 0.1 AuO.l 96.6 97.1 Ag98.4 Pd 0.1 Au 1.5 96.3 96.7 Ag96.9 Pd 0.1 Au 3.0 95.8 96.1 Ag98.4 Pd 1.5 Au 0.1 92.4 94.4 Ag97.0 Pd 1.5 Au 1.5 92.1 94.3 Ag95.5 Pd 1.5 Au 3.0 92.4 95.0 Ag96.9 Pd 3.0 Au 0.1 85.1 85.3 Ag95.5 Pd 3.0 Au 1.5 83.2 83.2 Ag94.0 Pd 3.0 Au 3.0 82.0 82.8 Ag99.8 Pd 0.1 RuO.l 96.7 97.1 40NDA200104TW; P1P2000284TW 32 本紙張尺度適用中國國家標準(CNS)A4規格(210 X 297公釐) (請先閱讀背面之注意事項寫本頁) ----I---訂---------Ag98.4 Pd 1.5 Ni 0.1 92.7 93.7 Ag97.0 Pd 1.5 Ni 1.5 91.2 92.1 Ag95.5 Pd 1.5 Ni 3.0 88.9 90.7 Ag96.9 Pd 3.0 Ni 0.1 86.1 88.9 Ag95.5 Pd 3.0 Ni 1.5 84.6 86.2 Ag94.0 Pd 3.0 Ni 3.0 82.7 84.6 Ag99.8 Pd 0.1 A1 0.1 98.1 98.7 Ag98.4 Pd 0.1 A1 1.5 98.1 98.4 Ag96.9 Pd 0.1 A1 3.0 97.6 98.1 Ag98.4 Pd 1.5 A1 0.1 96.5 97.6 Ag97.0 Pd 1.5 A1 1.5 95.3 96.8 Ag95 .5 Pd 1.5 A1 3.0 93.5 95.9 Ag96.9 Pd 3.0 A1 0.1 91 94.6 Ag95.5 Pd 3.0 A1 1.5 88.6 93 Ag94.0 Pd 3.0 A1 3.0 86.1 91.7 Ag99.8 Pd 0.1 NbO.l 95 95.3 Ag98.4 Pd 0.1 Nb 1.5 94.4 94.8 Ag96.9 Pd 0.1 Nb 3.0 93.8 94.2 Ag98.4 Pd 1.5 Nb 0.1 92.4 92.7 Ag97.0 Pd 1.5 Nb 1.5 90.8 91.4 Ag95.5 Pd 1.5 Nb 3.0 89.5 90.2 Ag96.9 Pd 3.0 Nb 0.1 86.7 87.9 Ag95 .5 Pd 3.0 Nb 1.5 84.6 85.9 Ag94.0 Pd 3.0 Nb 3.0 82.7 84.7 Ag99.8 Pd 0.1 AuO.l 96.7 97.0 Ag98.4 Pd 0.1 Au 1.5 95.4 96.8 Ag96.9 Pd 0.1 Au 3.0 95.8 96.1 Ag98.4 Pd 1.5 Au 0.1 92.3 94.5 Ag97.0 Pd 1.5 Au 1.5 92.1 94.3 Ag95.5 Pd 1.5 Au 3.0 92.4 95.0 Ag96.9 Pd 3.0 Au 0.1 85.1 85.3 Ag95.5 Pd 3.0 Au 1.5 83.2 83.3 Ag94.0 Pd 3.0 Au 3.0 82.0 1 82.8 Ag99.8 Pd 0.1 AuO.l 96.6 97.1 Ag98.4 Pd 0.1 Au 1.5 96.3 96.7 Ag96.9 Pd 0.1 Au 3.0 95.8 96.1 Ag98.4 Pd 1.5 Au 0.1 92.4 94.4 Ag97.0 Pd 1.5 Au 1.5 92.1 94.3 Ag95.5 Pd 1.5 Au 3.0 92.4 95.0 Ag96.9 Pd 3.0 Au 0.1 85.1 85.3 Ag95.5 Pd 3.0 Au 1.5 83.2 83.2 Ag94.0 Pd 3.0 Au 3.0 82.0 82.8 Ag99.8 Pd 0.1 RuO.l 96.7 97.1 40NDA200104TW; P1P2000284TW 32 This paper size is applicable to China National Standard (CNS) A4 specification (210 X 297 mm) (please read the notes on the back to write this page) ----I---订- --------
1284746 A7 B7 五、發明說明(3¾)1284746 A7 B7 V. Description of invention (33⁄4)
Ag98.4 Pd 0.1 Ru 1.5 96.4 96.6 Ag96.9 Pd 0.1 Ru 3.0 95.8 96.5 Ag98.4 Pd 1.5 Ru 0.1 82.3 93.5 Ag97.0 Pd 1.5 Ru 1.5 92.0 94.3 Ag95.5 Pd 1.5 Ru 3.0 92.3 95.0 Ag96.9 Pd 3.0 Ru 0.1 85.0 85.3 Ag95.5 Pd 3.0 Ru 1.5 83.3 83.3 Ag94.0 Pd 3.0 Ru 3.0 82.1 82.5 經濟部智慧財產局員工消費合作社印製Ag98.4 Pd 0.1 Ru 1.5 96.4 96.6 Ag96.9 Pd 0.1 Ru 3.0 95.8 96.5 Ag98.4 Pd 1.5 Ru 0.1 82.3 93.5 Ag97.0 Pd 1.5 Ru 1.5 92.0 94.3 Ag95.5 Pd 1.5 Ru 3.0 92.3 95.0 Ag96.9 Pd 3.0 Ru 0.1 85.0 85.3 Ag95.5 Pd 3.0 Ru 1.5 83.3 83.3 Ag94.0 Pd 3.0 Ru 3.0 82.1 82.5 Ministry of Economic Affairs Intellectual Property Bureau employee consumption cooperative printing
AgAuX 表 4 (續) 材料組成分(wt%) 500mm波長 800mm波長 反射率(%) 反射率(%) Ag98.0 Au 2.0 87.3 92.2 Ag97.0 Au 3.0 86.1 91.3 Ag99.8 Au 0.1 Cu 0.1 98.2 98.8 Ag99.4 Au 0.5 Cu 0.1 98.1 98.5 Ag98.1 Au 0.9 Cu 1.0 97.6 98.0 Ag98.9 Au 1.0 Cu 0.1 96.5 97.6 Ag97.9 Au 2.0 Cu 0.1 95.2 96.9 Ag96.9 Au 3.0 Cu 0.1 93.7 96.1 Ag96.5 Au 3.0 Cu0.5 91.1 94.7 Ag94.0 Au 3.0 Cu 3.0 85.6 91.8 Ag99.8 Au 0.1 Ti 0.1 98.0 98.5 Ag99.4 Au 0.5 Ti 0.1 97.8 98.2 Ag98.1 Au 0.9 Ti 1.0 97.3 97.9 Ag98.9 Au 1.0 Ti 0.1 96.6 97.5 Ag97.9 Au 2.0 Ti 0.1 95.5 97.1 Ag96.9 Au 3.0 Ti 0.1 93.9 96.3 Ag96.5 Au 3.0 Ti 0.5 92.3 95.2 Ag94.0 Au 3.0 Ti 3.0 86.4 90.8 Ag99.8 Au 0.1 Cr 0.1 94.6 94.7 Ag98.4 Au 0.1 Cr 1.5 93.4 93.6 Ag96.9 Au 0.1 Cr 3.0 91.9 92.4 Ag98.4 Au 1.5 Cr 0.1 90.2 90.7 Ag97.0 Au 1.5 Cr 1.5 88.5 89.3 Ag95.5 Au 1.5 Cr 3.0 86.1 86.6 Ag96.9 Au 3.0 Cr 0.1 84.9 85.2 Ag95.5 Au 3.0 Cr 1.5 83.4 83.8 Ag94.0 Au 3.0 Cr 3.0 82.6 82.6 Ag99.8 Au 0.1 Ta 0.1 95.1 95.3 Ag98.4 Au 0.1 Ta 1.5 94.6 95.0 40NDA200104TW: P1P2000284TW 33 本紙張尺度適用中國國家標準(CNS)A4規格(210 χ 297公釐) (請先閱讀背面之注意事 ϋ I ϋ ϋ ϋ n^OJI i 1 ϋ 寫本頁) 1284746 A7 B7 五、發明說明(3+) 經濟部智慧財產局員工消費合作社印製AgAuX Table 4 (continued) Material Composition (wt%) 500mm Wavelength 800mm Wavelength Reflectance (%) Reflectance (%) Ag98.0 Au 2.0 87.3 92.2 Ag97.0 Au 3.0 86.1 91.3 Ag99.8 Au 0.1 Cu 0.1 98.2 98.8 Ag99.4 Au 0.5 Cu 0.1 98.1 98.5 Ag98.1 Au 0.9 Cu 1.0 97.6 98.0 Ag98.9 Au 1.0 Cu 0.1 96.5 97.6 Ag97.9 Au 2.0 Cu 0.1 95.2 96.9 Ag96.9 Au 3.0 Cu 0.1 93.7 96.1 Ag96.5 Au 3.0 Cu0.5 91.1 94.7 Ag94.0 Au 3.0 Cu 3.0 85.6 91.8 Ag99.8 Au 0.1 Ti 0.1 98.0 98.5 Ag99.4 Au 0.5 Ti 0.1 97.8 98.2 Ag98.1 Au 0.9 Ti 1.0 97.3 97.9 Ag98.9 Au 1.0 Ti 0.1 96.6 97.5 Ag97.9 Au 2.0 Ti 0.1 95.5 97.1 Ag96.9 Au 3.0 Ti 0.1 93.9 96.3 Ag96.5 Au 3.0 Ti 0.5 92.3 95.2 Ag94.0 Au 3.0 Ti 3.0 86.4 90.8 Ag99.8 Au 0.1 Cr 0.1 94.6 94.7 Ag98.4 Au 0.1 Cr 1.5 93.4 93.6 Ag96.9 Au 0.1 Cr 3.0 91.9 92.4 Ag98.4 Au 1.5 Cr 0.1 90.2 90.7 Ag97.0 Au 1.5 Cr 1.5 88.5 89.3 Ag95.5 Au 1.5 Cr 3.0 86.1 86.6 Ag96.9 Au 3.0 Cr 0.1 84.9 85.2 Ag95 .5 Au 3.0 Cr 1.5 83.4 83.8 Ag94.0 Au 3.0 Cr 3.0 82.6 82.6 Ag99.8 Au 0.1 Ta 0.1 95.1 95.3 Ag98.4 Au 0.1 Ta 1.5 94.6 95.0 40NDA200104TW: P1P2000284TW 33 This paper size applies to the Chinese National Standard (CNS) A4 specification (210 297 297 mm) (please read the notes on the back first. I ϋ ϋ ϋ n^OJI i 1 ϋ Write this page) 1284746 A7 B7 V. Description of invention (3+) Printed by the Consumers' Cooperative of the Intellectual Property Office of the Ministry of Economic Affairs
Ag96.9 Au 0.1 Ta 3.0 93.4 94.1 Ag98.4 Au 1.5 Ta 0.1 91.8 92.5 Ag97.0 Au 1.5 Ta 1.5 90.4 91.2 Ag95.5 Au 1.5 Ta 3.0 88.7 89.9 Ag96.9 Au 3.0 Ta 0.1 85.9 87.6 Ag95.5 Au 3.0 Ta 1.5 84.5 85.9 Ag94.0 Au 3.0 Ta 3.0 82.8 84.2 Ag99.8 Au 0.1 Mo 0.1 94.8 95.1 Ag98.4 Au 0.1 Mo 1.5 94.2 94.7 Ag96.9 Au 0.1 Mo 3.0 93.5 94.0 Ag98.4 Au 1.5 Mo 0.1 92.3 92.9 Ag97.0 Au 1.5 Mo 1.5 90.6 91.5 Ag95.5 Au 1.5 Mo 3.0 89.7 90.3 Ag96.9 Au 3.0 Mo 0.1 86.8 88.6 Ag95.5 Au 3.0 Mo 1.5 84.6 86.4 Ag94.0 Au 3.0 Mo 3.0 82.7 84.5 Ag99.8 Au 0.1 Ni 0.1 95.7 95.9 Ag98.4 Au 0.1 Ni 1.5 95.2 95.4 Ag96.9 Au 0.1 Ni 3.0 93.9 94.6 Ag98.4 Au 1.5 Ni 0.1 92.3 93.5 Ag97.0 Au 1.5 Ni 1.5 90.8 91.9 Ag95.5 Au 1.5 Ni 3.0 88.7 90.6 Ag96.9 Au 3.0 Ni 0.1 85.9 88.8 Ag95.5 Au 3.0 Ni 1.5 84.4 86.1 Ag94.0 Au 3.0 Ni 3.0 82.6 84.5 Ag99.8 Au 0.1 A1 0.1 98.0 98.6 Ag98.4 Au 0.1 A1 1.5 97.9 98.3 Ag96.9 Au 0.1 A1 3.0 97.5 98.0 Ag98.4 Au 1.5 A1 0.1 96.4 97.5 Ag97.0 Au 1.5 A1 1.5 95.2 96.7 Ag95.5 Au 1.5 A1 3.0 93.4 95.8 Ag96.9 Au 3.0 A1 0.1 90.8 94.4 Ag95.5 Au 3.0 A1 1.5 88.4 92.8 Ag94.0 Au 3.0 A1 3.0 85.9 91.5 Ag99.8 Au 0.1 NbO.l 94.8 95.1 Ag98.4 Au 0.1 Nb 1.5 94.3 94.7 Ag96.9 Au 0.1 Nb 3.0 93.5 94.1 Ag98.4 Au 1.5 Nb 0.1 92.1 92.6 Ag97.0 Au 1.5 Nb 1.5 90.5 91.3 Ag95.5 Au 1.5 Nb 3.0 89.2 90.1 Ag96.9 Au 3.0 Nb 0.1 86.4 87.8 Ag95.5 Au 3.0 Nb 1.5 87.3 85.7 Ag94.0 Au 3.0 Nb 3.0 82.4 84.5 40NDA200104TW; P1P2000284TW 34 本紙張尺度適用中國國家標準(CNS)A4規格(210 X 297公釐) (請先閱讀背面之注意事項寫本頁) t---------線4Ag96.9 Au 0.1 Ta 3.0 93.4 94.1 Ag98.4 Au 1.5 Ta 0.1 91.8 92.5 Ag97.0 Au 1.5 Ta 1.5 90.4 91.2 Ag95.5 Au 1.5 Ta 3.0 88.7 89.9 Ag96.9 Au 3.0 Ta 0.1 85.9 87.6 Ag95.5 Au 3.0 Ta 1.5 84.5 85.9 Ag94.0 Au 3.0 Ta 3.0 82.8 84.2 Ag99.8 Au 0.1 Mo 0.1 94.8 95.1 Ag98.4 Au 0.1 Mo 1.5 94.2 94.7 Ag96.9 Au 0.1 Mo 3.0 93.5 94.0 Ag98.4 Au 1.5 Mo 0.1 92.3 92.9 Ag97 .0 Au 1.5 Mo 1.5 90.6 91.5 Ag95.5 Au 1.5 Mo 3.0 89.7 90.3 Ag96.9 Au 3.0 Mo 0.1 86.8 88.6 Ag95.5 Au 3.0 Mo 1.5 84.6 86.4 Ag94.0 Au 3.0 Mo 3.0 82.7 84.5 Ag99.8 Au 0.1 Ni 0.1 95.7 95.9 Ag98.4 Au 0.1 Ni 1.5 95.2 95.4 Ag96.9 Au 0.1 Ni 3.0 93.9 94.6 Ag98.4 Au 1.5 Ni 0.1 92.3 93.5 Ag97.0 Au 1.5 Ni 1.5 90.8 91.9 Ag95.5 Au 1.5 Ni 3.0 88.7 90.6 Ag96. 9 Au 3.0 Ni 0.1 85.9 88.8 Ag95.5 Au 3.0 Ni 1.5 84.4 86.1 Ag94.0 Au 3.0 Ni 3.0 82.6 84.5 Ag99.8 Au 0.1 A1 0.1 98.0 98.6 Ag98.4 Au 0.1 A1 1.5 97.9 98.3 Ag96.9 Au 0.1 A1 3.0 97.5 98.0 Ag98.4 Au 1.5 A1 0.1 96.4 97.5 Ag97.0 Au 1.5 A1 1.5 95.2 96.7 Ag95.5 Au 1.5 A1 3.0 93.4 95.8 Ag96.9 A u 3.0 A1 0.1 90.8 94.4 Ag95.5 Au 3.0 A1 1.5 88.4 92.8 Ag94.0 Au 3.0 A1 3.0 85.9 91.5 Ag99.8 Au 0.1 NbO.l 94.8 95.1 Ag98.4 Au 0.1 Nb 1.5 94.3 94.7 Ag96.9 Au 0.1 Nb 3.0 93.5 94.1 Ag98.4 Au 1.5 Nb 0.1 92.1 92.6 Ag97.0 Au 1.5 Nb 1.5 90.5 91.3 Ag95.5 Au 1.5 Nb 3.0 89.2 90.1 Ag96.9 Au 3.0 Nb 0.1 86.4 87.8 Ag95.5 Au 3.0 Nb 1.5 87.3 85.7 Ag94.0 Au 3.0 Nb 3.0 82.4 84.5 40NDA200104TW; P1P2000284TW 34 This paper size is applicable to China National Standard (CNS) A4 specification (210 X 297 mm) (please read the notes on the back to write this page) t-------- - line 4
1284746 A7 B7 五、發明說明(35) 經濟部智慧財產局員工消費合作社印製1284746 A7 B7 V. INSTRUCTIONS (35) Printed by the Consumers' Cooperative of the Intellectual Property Office of the Ministry of Economic Affairs
AgRuX 表 4 (續) 材料組成分(Wt%) 500mm波長 800mm波長 反射率(%) 反射率(%) Ag98.0 Ru 2.0 86.3 91.2 Ag97.0 Ru 3.0 86.0 91.3 Ag99.8 Ru 0.1 Cu 0.1 98.1 98.8 Ag99.4 Ru 0.5 Cu 0.1 98.0 98.6 Ag98.1 Ru 0.9 Cu 1.0 97.6 98.1 Ag98.9 Ru 1.0 Cu 0.1 96.5 97.5 Ag97.9 Ru 2.0 Cu 0.1 95.2 96.8 Ag96.9 Ru 3.0 Cu 0.1 93.7 96.0 Ag96.5 Ru 3.0 Cu0.5 91.1 94.7 Ag94.0 Ru 3.0 Cu 3.0 85.6 91.7 Ag99.8 Ru 0.1 Ti 0.1 98.0 98.4 Ag99.4 Ru 0.5 Ti 0.1 97.7 98.2 Ag98.1 Ru 0.9 Ti 1.0 97.2 97.9 Ag98.9 Ru 1.0 Ti 0.1 96.5 97.5 Ag97.9 Ru 2.0 Ti 0.1 95.4 97.1 Ag96.9 Ru 3.0 Ti 0.1 93.8 96.3 Ag96.5 Ru 3.0 Ti 0.5 92.1 95.2 Ag94.0 Ru 3.0 Ti 3.0 86.4 90.8 Ag99.8 Ru 0.1 Cr 0.1 94.6 94.7 Ag98.4 Ru 0.1 Cr 1.5 93.4 92.6 Ag96.9 Ru 0.1 Cr 3.0 91.9 92.4 Ag98.4 Ru 1.5 Cr 0.1 90.5 91.7 Ag97.0 Ru 1.5 Cr 1.5 88.2 88.3 Ag95.5 Ru 1.5 Cr 3.0 86.1 86.6 Ag96.9 Ru 3.0 Cr 0.1 84.8 84.2 Ag95.5 Ru 3.0 Cr 1.5 83.3 83.8 Ag94.0 Ru 3.0 Cr 3.0 82.4 82.6 Ag99.8 Ru 0.1 Ta 0.1 95.0 95.3 Ag98.4 Ru 0.1 Ta 1.5 94.6 95.0 Ag96.9 Ru 0.1 Ta 3.0 93.4 94.1 Ag98.4 Ru 1.5 Ta 0.1 91.8 92.5 Ag97.0 Ru 1.5 Ta 1.5 90.4 91.2 Ag95.5 Ru 1.5 Ta 3.0 88.7 89.9 Ag96.9 Ru 3.0 Ta 0.1 85.9 87.6 Ag95.5 Ru 3.0 Ta 1.5 84.5 85.9 Ag94.0 Ru 3.0 Ta 3.0 82.6 84.2 Ag99.8 Ru 0.1 Mo 0.1 94.7 95.1 40NDA200104TW; P1P2000284TW 35 本紙張尺度適用中國國家標準(CNS)A4規格(210 X 297公釐) --------訂---------線氣 (請先閱讀背面之注意事項寫本頁)AgRuX Table 4 (continued) Material Composition (Wt%) 500mm Wavelength 800mm Wavelength Reflectance (%) Reflectance (%) Ag98.0 Ru 2.0 86.3 91.2 Ag97.0 Ru 3.0 86.0 91.3 Ag99.8 Ru 0.1 Cu 0.1 98.1 98.8 Ag99.4 Ru 0.5 Cu 0.1 98.0 98.6 Ag98.1 Ru 0.9 Cu 1.0 97.6 98.1 Ag98.9 Ru 1.0 Cu 0.1 96.5 97.5 Ag97.9 Ru 2.0 Cu 0.1 95.2 96.8 Ag96.9 Ru 3.0 Cu 0.1 93.7 96.0 Ag96.5 Ru 3.0 Cu0.5 91.1 94.7 Ag94.0 Ru 3.0 Cu 3.0 85.6 91.7 Ag99.8 Ru 0.1 Ti 0.1 98.0 98.4 Ag99.4 Ru 0.5 Ti 0.1 97.7 98.2 Ag98.1 Ru 0.9 Ti 1.0 97.2 97.9 Ag98.9 Ru 1.0 Ti 0.1 96.5 97.5 Ag97.9 Ru 2.0 Ti 0.1 95.4 97.1 Ag96.9 Ru 3.0 Ti 0.1 93.8 96.3 Ag96.5 Ru 3.0 Ti 0.5 92.1 95.2 Ag94.0 Ru 3.0 Ti 3.0 86.4 90.8 Ag99.8 Ru 0.1 Cr 0.1 94.6 94.7 Ag98.4 Ru 0.1 Cr 1.5 93.4 92.6 Ag96.9 Ru 0.1 Cr 3.0 91.9 92.4 Ag98.4 Ru 1.5 Cr 0.1 90.5 91.7 Ag97.0 Ru 1.5 Cr 1.5 88.2 88.3 Ag95.5 Ru 1.5 Cr 3.0 86.1 86.6 Ag96.9 Ru 3.0 Cr 0.1 84.8 84.2 Ag95 .5 Ru 3.0 Cr 1.5 83.3 83.8 Ag94.0 Ru 3.0 Cr 3.0 82.4 82.6 Ag99.8 Ru 0.1 Ta 0.1 95.0 95.3 Ag98.4 Ru 0.1 T a 1.5 94.6 95.0 Ag96.9 Ru 0.1 Ta 3.0 93.4 94.1 Ag98.4 Ru 1.5 Ta 0.1 91.8 92.5 Ag97.0 Ru 1.5 Ta 1.5 90.4 91.2 Ag95.5 Ru 1.5 Ta 3.0 88.7 89.9 Ag96.9 Ru 3.0 Ta 0.1 85.9 87.6 Ag95 .5 Ru 3.0 Ta 1.5 84.5 85.9 Ag94.0 Ru 3.0 Ta 3.0 82.6 84.2 Ag99.8 Ru 0.1 Mo 0.1 94.7 95.1 40NDA200104TW; P1P2000284TW 35 This paper size applies to the Chinese National Standard (CNS) A4 specification (210 X 297 mm) - ------- book --------- line gas (please read the notes on the back to write this page)
1284746 A7 B7 五、發明說明UL)1284746 A7 B7 V. Invention Description UL)
Ag98.4 Ru 0.1 Mo 1.5 94.1 94.7 Ag96.9 Ru 0.1 Mo 3.0 93.3 94.0 Ag98.4 Ru 1.5 Mo 0.1 92.2 92.9 Ag97.0 Ru 1.5 Mo 1.5 90.5 91.5 Ag95.5 Ru 1.5 Mo 3.0 89.9 91.3 Ag96.9 Ru 3.0 Mo 0.1 86.8 88.6 Ag95.5 Ru 3.0 Mo 1.5 84.8 86.3 Ag94.0 Ru 3.0 Mo 3.0 82.6 84.5 Ag99.8 Ru 0.1 Ni 0.1 96.7 97.2 Ag98.4 Ru 0.1 Ni 1.5 96.5 96.9 Ag96.9 Ru 0.1 Ni 3.0 96.1 96.3 Ag98.4 Ru 1.5 Ni 0.1 95.3 95.8 Ag97.0 Ru 1.5 Ni 1.5 93.7 94.7 Ag95.5 Ru 1.5 Ni 3.0 91.2 93.3 Ag96.9 Ru 3.0 Ni 0.1 88.4 91.7 Ag95.5 Ru 3.0 Ni 1.5 85.0 87.2 Ag94.0 Ru 3.0 Ni 3.0 83.5 85.6 Ag99.8 Ru 0.1 A1 0.1 98.0 98.4 Ag98.4 Ru 0.1 A1 1.5 97.9 98.2 Ag96.9 Ru 0.1 A1 3.0 97.5 98.1 Ag98.4 Ru 1.5 A1 0.1 96.4 97.5 Ag97.0 Ru 1.5 A1 1.5 95.2 96.5 Ag95.5 Ru 1.5 A1 3.0 93.4 95.8 Ag96.9 Ru 3.0 A1 0.1 90.8 94.4 Ag95.5 Ru 3.0 A1 1.5 88.4 92.7 Ag94.0 Ru 3.0 A1 3.0 85.4 91.5 Ag99.8 Ru 0.1 NbO.l 94.7 95.2 Ag98.4 Ru 0.1 Nb 1.5 94.3 94.7 Ag96.9 Ru 0.1 Nb 3.0 93.4 94.1 Ag98.4 Ru 1.5 Nb 0.1 92.1 92.5 Ag97.0 Ru 1.5 Nb 1.5 90.2 91.3 Ag95.5 Ru 1.5 Nb 3.0 88.1 90.0 Ag96.9 Ru 3.0 Nb 0.1 85.2 87.8 Ag95.5 Ru 3.0 Nb 1.5 84.1 85.7 Ag94.0 Ru 3.0 Nb 3.0 82.4 84.5 (請先閱讀背面之注意事項 寫本頁) ^---------麓Ag98.4 Ru 0.1 Mo 1.5 94.1 94.7 Ag96.9 Ru 0.1 Mo 3.0 93.3 94.0 Ag98.4 Ru 1.5 Mo 0.1 92.2 92.9 Ag97.0 Ru 1.5 Mo 1.5 90.5 91.5 Ag95.5 Ru 1.5 Mo 3.0 89.9 91.3 Ag96.9 Ru 3.0 Mo 0.1 86.8 88.6 Ag95.5 Ru 3.0 Mo 1.5 84.8 86.3 Ag94.0 Ru 3.0 Mo 3.0 82.6 84.5 Ag99.8 Ru 0.1 Ni 0.1 96.7 97.2 Ag98.4 Ru 0.1 Ni 1.5 96.5 96.9 Ag96.9 Ru 0.1 Ni 3.0 96.1 96.3 Ag98 .4 Ru 1.5 Ni 0.1 95.3 95.8 Ag97.0 Ru 1.5 Ni 1.5 93.7 94.7 Ag95.5 Ru 1.5 Ni 3.0 91.2 93.3 Ag96.9 Ru 3.0 Ni 0.1 88.4 91.7 Ag95.5 Ru 3.0 Ni 1.5 85.0 87.2 Ag94.0 Ru 3.0 Ni 3.0 83.5 85.6 Ag99.8 Ru 0.1 A1 0.1 98.0 98.4 Ag98.4 Ru 0.1 A1 1.5 97.9 98.2 Ag96.9 Ru 0.1 A1 3.0 97.5 98.1 Ag98.4 Ru 1.5 A1 0.1 96.4 97.5 Ag97.0 Ru 1.5 A1 1.5 95.2 96.5 Ag95. 5 Ru 1.5 A1 3.0 93.4 95.8 Ag96.9 Ru 3.0 A1 0.1 90.8 94.4 Ag95.5 Ru 3.0 A1 1.5 88.4 92.7 Ag94.0 Ru 3.0 A1 3.0 85.4 91.5 Ag99.8 Ru 0.1 NbO.l 94.7 95.2 Ag98.4 Ru 0.1 Nb 1.5 94.3 94.7 Ag96.9 Ru 0.1 Nb 3.0 93.4 94.1 Ag98.4 Ru 1.5 Nb 0.1 92.1 92.5 Ag97.0 Ru 1.5 Nb 1.5 90.2 91.3 Ag95.5 Ru 1.5 Nb 3.0 88.1 90.0 Ag96.9 Ru 3.0 Nb 0.1 85.2 87.8 Ag95.5 Ru 3.0 Nb 1.5 84.1 85.7 Ag94.0 Ru 3.0 Nb 3.0 82.4 84.5 (Please read the back note to write this page) ^----- ----麓
經濟部智慧財產局員工消費合作社印製 因此,可見本發明的銀合金層非常適合用於反射型液 晶顯示裝置的反射體或反射性接線電極。 40NDA200104TW; P1P2000284TW 36 本紙張尺度適用中國國家標準(CNS)A4規格(210 X 297公釐) 1284746 A7 B7 五、發明説明(说) 條件下對抗樹脂基底的化學穩定度。 爲了要證實本發明三元反射層的化學穩定性,藉由三 元同時濺鍍沉積15nm厚之反射層於PMMA、PET、PC、 矽氧烷樹脂以及相類似的樹脂層上。這些層於高溫與高溼 度情況下保持24小時。檢查外觀與反射特性隨著時間的變 化。 表5 材料組成分 (wt%) 高溫與高溼度測試結果 化學特性的變化 (反射率降低) 視覺變化成模糊 白色,與基底剝離 Ag98.0 Pd 2.0 許多黑色污點 發生剝離 Ag97.0 Pd 3.0 適度的黑色污點 發生剝離 Ag99.8 Pd 0.1 Cu 0.1 沒 變 些許顏色變化 Ag99.4 Pd 0.5 Cu 0.1 沒 變 沒 愛 Ag98.1 Pd 0.9 Cu 1.0 沒 變 沒 變 Ag98.9 Pd 1.0 Cu 0.1 沒 變 沒 變 Ag97.9 Pd 2.0 Cu 0.1 沒 變 沒變 Ag96.9 Pd 3.0 Cu 0.1 沒 變 沒 Ag96.5 Pd 3.0 Cu0.5 沒 變 沒 變 Ag94.0 Pd 3.0 Cu 3.0 沒 變 沒 變 Ag99.8 Pd 0.1 Ti 0.1 沒 變 沒 變 Ag99.4 Pd 0.5 Ti 0.1 沒 變 沒 變 Ag98.1 Pd 0.9 Ti 1.0 沒 變 沒 變 Ag98.9 Pd 1.0 Ti 0.1 沒 變 沒 變 Ag97.9 Pd 2.0 Ti 0.1 沒 變 沒 變 Ag96.9 Pd 3.0 Ti 0.1 沒 變 沒 變 Ag96.5 Pd 3.0 Ti 0.5 沒 變 沒 變 Ag94.0 Pd 3.0 Ti 3.0 沒 變 沒 變 Ag99.8 Pd 0.1 Au 0.1 沒 變 沒 變 Ag98.4 Pd 0.1 Au 1.5 沒 變 沒 變 Ag96.9 Pd 0.1 Au 3.0 沒 變 沒 變 Ag98.4 Pd 1.5 Au 0.1 沒 變 沒 變 Ag97.0 Pd 1.5 Au 1.5 沒變 沒 變 Ag95.5 Pd 1.5 Au 3.0 沒 變 沒 變 40NDA200104TW; P1P2000284TW 38 本紙張尺度適用中國國家標準(CNS ) A4規格(210X297公釐) (請先閱讀背面之注意事項馬本頁)Printed by the Intellectual Property Office of the Ministry of Economic Affairs, the Consumer Cooperatives. Therefore, it can be seen that the silver alloy layer of the present invention is very suitable for use as a reflector or a reflective wiring electrode of a reflective liquid crystal display device. 40NDA200104TW; P1P2000284TW 36 This paper size is applicable to China National Standard (CNS) A4 specification (210 X 297 mm). 1284746 A7 B7 V. Inventive Note (say) Chemical stability against resin substrate under conditions. In order to confirm the chemical stability of the ternary reflective layer of the present invention, a 15 nm thick reflective layer was deposited by ternary simultaneous sputtering on PMMA, PET, PC, decane resin and similar resin layers. These layers were maintained at high temperature and high humidity for 24 hours. Check the appearance and reflection characteristics over time. Table 5 Material Composition (wt%) High-temperature and high-humidity test results Chemical characteristics change (reflectance reduction) Visual change into blurred white, peeling off with substrate Ag98.0 Pd 2.0 Many black stains peeled off Ag97.0 Pd 3.0 Moderate Black stains peeled off Ag99.8 Pd 0.1 Cu 0.1 No change in color Change Ag99.4 Pd 0.5 Cu 0.1 No change No love Ag98.1 Pd 0.9 Cu 1.0 No change No change Ag98.9 Pd 1.0 Cu 0.1 No change No change Ag97 .9 Pd 2.0 Cu 0.1 No change No change Ag96.9 Pd 3.0 Cu 0.1 No change No Ag96.5 Pd 3.0 Cu0.5 No change No change Ag94.0 Pd 3.0 Cu 3.0 No change No change Ag99.8 Pd 0.1 Ti 0.1 No change, no change, Ag99.4 Pd 0.5 Ti 0.1 No change, no change, Ag98.1 Pd 0.9 Ti 1.0 No change, no change, Ag98.9 Pd 1.0 Ti 0.1 No change, no change, Ag97.9 Pd 2.0 Ti 0.1 No change, no change, Ag96. 9 Pd 3.0 Ti 0.1 No change No change Ag96.5 Pd 3.0 Ti 0.5 No change No change Ag94.0 Pd 3.0 Ti 3.0 No change No change Ag99.8 Pd 0.1 Au 0.1 No change No change Ag98.4 Pd 0.1 Au 1.5 No No change Ag96.9 Pd 0.1 Au 3.0 No change No change Ag98.4 Pd 1.5 Au 0.1 No No change Ag97.0 Pd 1.5 Au 1.5 No change No change Ag95.5 Pd 1.5 Au 3.0 No change No change 40NDA200104TW; P1P2000284TW 38 This paper size applies to Chinese National Standard (CNS) A4 size (210X297 mm) (Please read the back first Note on the horse page)
經濟部智慧財產局員工消費合作社印製 1284746 A7 _B7 五、發明說明(Μ) 經濟部智慧財產局員工消費合作社印製Printed by the Ministry of Economic Affairs, Intellectual Property Bureau, Staff and Consumers Co., Ltd. 1284746 A7 _B7 V. Invention Description (Μ) Printed by the Intellectual Property Office of the Ministry of Economic Affairs
Ag96.9 Pd 3.0 Au 0.1 沒 變 沒 變 Ag95.5 Pd 3.0 Au 1.5 沒 變 沒 變 Ag94.0 Pd 3.0 Au 3.0 沒 變 沒 變 Ag99.8 Pd 0.1 Cr 0.1 沒 變 沒 變 Ag98.4 Pd 0.1 Cr 1.5 沒 變 沒 變 Ag96.9 Pd 0.1 Cr 3.0 沒 變 沒 變 Ag98.4 Pd 1.5 Cr 0.1 沒 變 沒 變 Ag97.0 Pd 1.5 Cr 1.5 沒 變 沒 變 Ag95.5 Pd 1.5 Cr 3.0 沒 變 沒 變 Ag96.9 Pd 3.0 Cr 0.1 沒 變 沒 變 Ag95.5 Pd 3.0 Cr 1.5 沒 變 沒 變 Ag94.0 Pd 3.0 Cr 3.0 沒 變 沒 變 Ag99.8 Pd 0.1 Ta 0.1 沒 變 沒 變 Ag98.4 Pd 0.1 Ta 1.5 沒 變 沒 變 Ag96.9 Pd 0.1 Ta 3.0 沒 變 沒 變 Ag98.4 Pd 1.5 Ta 0.1 沒 變 沒 變 Ag97.0 Pd 1.5 Ta 1.5 沒 變 沒 變 Ag95.5 Pd 1.5 Ta 3.0 沒 變 沒 變 Ag96.9 Pd 3.0 Ta 0.1 沒 變 沒 變 Ag95.5 Pd 3.0 Ta 1.5 沒 變 沒 變 Ag94.0 Pd 3.0 Ta 3.0 沒 變 沒 變 Ag99.8 Pd 0.1 Mo 0.1 沒 變 沒 變 Ag98.4 Pd 0.1 Mo 1.5 沒 沒 變 Ag96.9 Pd 0.1 Mo 3.0 沒 變 沒 變 Ag98.4 Pd 1.5 Mo 0.1 沒 變 沒· 變 Ag97.0 Pd 1.5 Mo 1.5 沒 變 沒 變 Ag95.5 Pd 1.5 Mo 3.0 沒 變 沒 變 Ag96.9 Pd 3.0 Mo 0.1 沒 變 沒 變 Ag95.5 Pd 3.0 Mo 1.5 沒 變 沒 變 Ag94.0 Pd 3.0 Mo 3.0 沒 變 沒 變 Ag99.8 Pd 0.1 Ni 0.1 沒 變 沒 變 Ag98.4 Pd 0.1 Ni 1.5 沒 變 沒 變 Ag96.9 Pd 0.1 Ni 3.0 沒 變 沒 變 Ag98.4 Pd 1.5 Ni 0.1 沒 變 沒 變 Ag97.0 Pd 1.5 Ni 1.5 沒 變 沒 變 Ag95.5 Pd 1.5 Ni 3.0 沒 變 沒 變 Ag96.9 Pd 3.0 Ni 0.1 沒 變 沒 變 Ag95.5 Pd 3.0 Ni 1.5 沒 變 沒 變 Ag94.0 Pd 3.0 Ni 3.0 沒 變 沒 變 Ag99.8 Pd 0.1 A1 0.1 沒 變 沒 變 Ag98.4 Pd 0.1 A1 1.5 沒 變 沒 變 40NDA200104TW; P1P2000284TW 39 · 1· ·1 II ^1 I ϋ ϋ 一 0、I i^i ^1- in Hi «^1 ϋ I (請先閱讀背面之注意事項再填寫本頁)Ag96.9 Pd 3.0 Au 0.1 No change No change Ag95.5 Pd 3.0 Au 1.5 No change No change Ag94.0 Pd 3.0 Au 3.0 No change No change Ag99.8 Pd 0.1 Cr 0.1 No change No change Ag98.4 Pd 0.1 Cr 1.5 No change No change Ag96.9 Pd 0.1 Cr 3.0 No change No change Ag98.4 Pd 1.5 Cr 0.1 No change No change Ag97.0 Pd 1.5 Cr 1.5 No change No change Ag95.5 Pd 1.5 Cr 3.0 No change No change Ag96 .9 Pd 3.0 Cr 0.1 No change No change Ag95.5 Pd 3.0 Cr 1.5 No change No change Ag94.0 Pd 3.0 Cr 3.0 No change No change Ag99.8 Pd 0.1 Ta 0.1 No change No change Ag98.4 Pd 0.1 Ta 1.5 No change, no change, Ag96.9 Pd 0.1 Ta 3.0 No change, no change, Ag98.4 Pd 1.5 Ta 0.1 No change, no change, Ag97.0 Pd 1.5 Ta 1.5 No change, no change, Ag95.5 Pd 1.5 Ta 3.0 No change, no change, Ag96. 9 Pd 3.0 Ta 0.1 No change No change Ag95.5 Pd 3.0 Ta 1.5 No change No change Ag94.0 Pd 3.0 Ta 3.0 No change No change Ag99.8 Pd 0.1 Mo 0.1 No change No change Ag98.4 Pd 0.1 Mo 1.5 No No change Ag96.9 Pd 0.1 Mo 3.0 No change No change Ag98.4 Pd 1.5 Mo 0.1 No change No change Ag97.0 Pd 1.5 Mo 1.5 No change No change Ag95.5 Pd 1.5 Mo 3.0 has not changed, Ag96.9 Pd 3.0 Mo 0.1 has not changed, Ag95.5 Pd 3.0 Mo 1.5 has not changed, Ag94.0 Pd 3.0 Mo 3.0 has not changed, Ag99.8 Pd 0.1 Ni 0.1 has not changed Ag98.4 Pd 0.1 Ni 1.5 No change No change Ag96.9 Pd 0.1 Ni 3.0 No change No change Ag98.4 Pd 1.5 Ni 0.1 No change No change Ag97.0 Pd 1.5 Ni 1.5 No change No change Ag95.5 Pd 1.5 Ni 3.0 No change No change Ag96.9 Pd 3.0 Ni 0.1 No change No change Ag95.5 Pd 3.0 Ni 1.5 No change No change Ag94.0 Pd 3.0 Ni 3.0 No change No change Ag99.8 Pd 0.1 A1 0.1 No change No change Ag98 .4 Pd 0.1 A1 1.5 No change No change 40NDA200104TW; P1P2000284TW 39 · 1· ·1 II ^1 I ϋ ϋ One 0, I i^i ^1- in Hi «^1 ϋ I (Please read the notes on the back first) Fill in this page again)
f 本紙張尺度適用中國國家標準(CNS)A4規格(210 X 297公釐) 1284746 經濟部智慧財產局員工消費合作社印製 A7 B7 五、發明說明(4〇 )f This paper scale applies to China National Standard (CNS) A4 specification (210 X 297 mm) 1284746 Ministry of Economic Affairs Intellectual Property Bureau employee consumption cooperative printing A7 B7 V. Invention description (4〇)
Ag96.9 Pd 0.1 A1 3.0 沒 變 沒 變 Ag98.4 Pd 1.5 A1 0.1 沒 變 沒 變 Ag97.0 Pd 1.5 A1 1.5 沒 變 沒 變 Ag95.5 Pd 1.5 A1 3.0 沒 變 沒 變 Ag96.9 Pd 3.0 A1 0.1 沒 變 沒 變 Ag95.5 Pd 3.0 A1 1.5 沒 沒 變 Ag94.0 Pd 3.0 A1 3.0 沒 變 沒 變 Ag99.8 Pd 0.1 NbO.l 沒 變 沒 變 Ag98.4 Pd 0.1 Nb 1.5 沒 變 沒 變 Ag96.9 Pd 0.1 Nb 3.0 沒 變 沒 變 Ag98.4 Pd 1.5 Nb 0.1 沒 變 沒 變 Ag97.0 Pd 1.5 Nb 1.5 沒 變 沒 變 Ag95.5 Pd 1.5 Nb 3.0 沒 變 沒 變 Ag96.9 Pd 3.0 Nb 0.1 沒 變 沒 變 Ag95.5 Pd 3.0 Nb 1.5 沒 變 沒 變 Ag94.0 Pd 3.0 Nb 3.0 沒 變 沒 變 Ag99.8 Ru 0.1 Au 0.1 沒 變 沒 變 Ag98.4 Ru 0.1 Au 1.5 沒 變 沒 變 Ag96.9 Ru 0.1 Au 3.0 沒 變 沒 變 Ag98.4 Ru 1.5 Au 0.1 沒 變 沒 變 Ag97.0 Ru 1.5 Au 1.5 沒 變 沒 變 Ag95.5 Ru 1.5 Au 3.0 沒 變 沒 變 Ag96.9 Ru 3.0 Au 0.1 沒 變 沒 變 Ag95.5 Ru 3.0 Au 1.5 沒 變 沒 變 Ag94.0 Ru 3.0 Au 3.0 沒 變 沒 變 Ag99.8 Pd 0.1 Ru 0.1 沒 變 沒 變 Ag98.4 Pd 0.1 Ru 1.5 沒 變 沒 變 Ag96.9 Pd 0.1 Ru 3.0 沒 變 沒 變 Ag98.4 Pd 1.5 Ru 0.1 沒 變 沒 變 Ag97.0 Pd 1.5 Ru 1.5 沒 變 沒 變 Ag95.5 Pd 1.5 Ru 3.0 沒 變 沒 變 Ag96.9 Pd 3.0 Ru 0.1 沒 變 沒 變 Ag95.5 Pd 3.0 Ru 1.5 沒 變 沒 變 Ag94.0 Pd 3.0 Ru 3.0 沒 變 沒 變 40NDA200104TW; P1P2000284TW 40 镳 μ·· ΜΗ xav 一·口,a n ϋ ϋ ϋ -^1 ϋ I (請先閱讀背面之注意事填寫本頁) f填 本紙張尺度適用中國國家標準(CNS)A4規格(210 X 297公釐) 經濟部智慧財產局員工消費合作社印製 1284746 A7 _B7 五、發明說明(4A)Ag96.9 Pd 0.1 A1 3.0 No change No change Ag98.4 Pd 1.5 A1 0.1 No change No change Ag97.0 Pd 1.5 A1 1.5 No change No change Ag95.5 Pd 1.5 A1 3.0 No change No change Ag96.9 Pd 3.0 A1 0.1 No change No change Ag95.5 Pd 3.0 A1 1.5 No change Ag94.0 Pd 3.0 A1 3.0 No change No change Ag99.8 Pd 0.1 NbO.l No change No change Ag98.4 Pd 0.1 Nb 1.5 No change No change Ag96 .9 Pd 0.1 Nb 3.0 No change No change Ag98.4 Pd 1.5 Nb 0.1 No change No change Ag97.0 Pd 1.5 Nb 1.5 No change No change Ag95.5 Pd 1.5 Nb 3.0 No change No change Ag96.9 Pd 3.0 Nb 0.1 No change No change Ag95.5 Pd 3.0 Nb 1.5 No change No change Ag94.0 Pd 3.0 Nb 3.0 No change No change Ag99.8 Ru 0.1 Au 0.1 No change No change Ag98.4 Ru 0.1 Au 1.5 No change No change Ag96. 9 Ru 0.1 Au 3.0 No change No change Ag98.4 Ru 1.5 Au 0.1 No change No change Ag97.0 Ru 1.5 Au 1.5 No change No change Ag95.5 Ru 1.5 Au 3.0 No change No change Ag96.9 Ru 3.0 Au 0.1 No Change No change Ag95.5 Ru 3.0 Au 1.5 No change No change Ag94.0 Ru 3.0 Au 3.0 No change No change Ag99.8 Pd 0.1 Ru 0.1 No change No change Ag98.4 Pd 0.1 Ru 1.5 No change No change Ag96.9 Pd 0.1 Ru 3.0 No change No change Ag98.4 Pd 1.5 Ru 0.1 No change No change Ag97.0 Pd 1.5 Ru 1.5 No change No change Ag95.5 Pd 1.5 Ru 3.0 No change No change Ag96 .9 Pd 3.0 Ru 0.1 No change No change Ag95.5 Pd 3.0 Ru 1.5 No change No change Ag94.0 Pd 3.0 Ru 3.0 No change No change 40NDA200104TW; P1P2000284TW 40 镳μ·· ΜΗ xav One port, an ϋ ϋ ϋ -^1 ϋ I (Please read the note on the back to fill out this page) f Fill in the paper size applicable to China National Standard (CNS) A4 specification (210 X 297 mm) Ministry of Economic Affairs Intellectual Property Bureau Staff Consumer Cooperative Printed 1284746 A7 _B7 V. Description of invention (4A)
AgAuX 表 5 (續) 材料組成分 (wt%) 高溫與高溼度測試結果 化學特性的變化 (反射率降低) 化學特性的變 化(反射率降 低) Ag98.0 Au 2.0 許多黑色污點 發生剝離 Ag97.0 Au 3.0 適度的黑色污點 發生剝離 Ag99.8 Au 0.1 Cu 0.1 沒 變 沒 變 Ag99.4 Au 0.5 Cu 0.1 沒 變 沒 變 Ag98.1 Au 0.9 Cu 1.0 沒 變 沒 變 Ag98.9 Au 1.0 Cu 0.1 沒 變 沒 變 Ag97.9 Au 2.0 Cu 0.1 沒 變 沒 變 Ag96.9 Au 3.0 Cu 0.1 沒 變 沒 變 Ag96.5 Au 3.0 Cu0.5 沒 變 沒 變 Ag94.0 Au 3.0 Cu 3.0 沒 變 沒 變 Ag99.8 Au 0.1 Ti 0.1 沒 變 沒 變 Ag99.4 Au 0.5 Ti 0.1 沒 變 沒 變 Ag98.1 Au 0.9 Ti 1.0 沒 變 沒 變 Ag98.9 Au 1.0 Ti 0.1 沒 變 沒 變 Ag97.9 Au 2.0 Ti 0.1 沒 變 沒 變 Ag96.9 Au 3.0 Ti 0.1 沒 變 沒 變 Ag96.5 Au 3.0 Ti 0.5 沒 變 沒 變 Ag94.0 Au 3.0 Ti 3.0 沒 變 沒 變 Ag99.8 Au 0.1 Cr 0.1 沒 變 沒 變 Ag98.4 Au 0.1 Cr 1.5 沒 變 沒 變 Ag96.9 Au 0.1 Cr 3.0 沒 變 沒 變 Ag98.4 Au 1.5 Cr 0.1 沒 變 沒 變 Ag97.0 Au 1.5 Cr 1.5 沒 變 沒 變 Ag95.5 Au 1.5 Cr 3.0 沒 變 沒 變 Ag96.9 Au 3.0 Cr 0.1 沒 變 沒 變 Ag95.5 Au 3.0 Cr 1.5 沒 變 沒 變 Ag94.0 Au 3.0 Cr 3.0 沒 變 沒 變 Ag99.8 Au 0.1 Ta 0.1 沒 變 沒 變 Ag98.4 Au 0.1 Ta 1.5 沒 變 沒 變 Ag96.9 Au 0.1 Ta 3.0 沒 變 沒 變 Ag98.4 Au 1.5 Ta 0.1 沒 變 沒 變 Ag97.0 Au 1.5 Ta 1.5 沒 變 沒 變 Ag95.5 Au 1.5 Ta 3.0 沒 變 沒 變 Ag96.9 Au 3.0 Ta 0.1 沒 變 沒 變 Ag95.5 Au 3.0 Ta 1.5 沒 變 沒 變 40NDA200104TW; P1P2000284TW 41 I 1 1 H 1 一一口、I n 1 ϋ ϋ 1 ϋ ϋ I (請先閱讀背面之注意事項再填寫本頁)AgAuX Table 5 (continued) Material Composition (wt%) High-temperature and high-humidity test results Chemical characteristics change (reflectance reduction) Chemical property change (reflectance reduction) Ag98.0 Au 2.0 Many black stains peeled off Ag97.0 Au 3.0 moderate black stain peeling Ag99.8 Au 0.1 Cu 0.1 No change No change Ag99.4 Au 0.5 Cu 0.1 No change No change Ag98.1 Au 0.9 Cu 1.0 No change No change Ag98.9 Au 1.0 Cu 0.1 No change No change Ag97.9 Au 2.0 Cu 0.1 No change No change Ag96.9 Au 3.0 Cu 0.1 No change No change Ag96.5 Au 3.0 Cu0.5 No change No change Ag94.0 Au 3.0 Cu 3.0 No change No change Ag99.8 Au 0.1 Ti 0.1 No change No change Ag99.4 Au 0.5 Ti 0.1 No change No change Ag98.1 Au 0.9 Ti 1.0 No change No change Ag98.9 Au 1.0 Ti 0.1 No change No change Ag97.9 Au 2.0 Ti 0.1 No change No change Ag96.9 Au 3.0 Ti 0.1 No change No change Ag96.5 Au 3.0 Ti 0.5 No change No change Ag94.0 Au 3.0 Ti 3.0 No change No change Ag99.8 Au 0.1 Cr 0.1 No change No change Ag98.4 Au 0.1 Cr 1.5 No change No change Ag96.9 Au 0.1 Cr 3.0 No change No change Ag98.4 Au 1.5 Cr 0 .1 No change No change Ag97.0 Au 1.5 Cr 1.5 No change No change Ag95.5 Au 1.5 Cr 3.0 No change No change Ag96.9 Au 3.0 Cr 0.1 No change No change Ag95.5 Au 3.0 Cr 1.5 No change Ag94.0 Au 3.0 Cr 3.0 No change No change Ag99.8 Au 0.1 Ta 0.1 No change No change Ag98.4 Au 0.1 Ta 1.5 No change No change Ag96.9 Au 0.1 Ta 3.0 No change No change Ag98.4 Au 1.5 Ta 0.1 No change No change Ag97.0 Au 1.5 Ta 1.5 No change No change Ag95.5 Au 1.5 Ta 3.0 No change No change Ag96.9 Au 3.0 Ta 0.1 No change No change Ag95.5 Au 3.0 Ta 1.5 No change No change 40NDA200104TW ; P1P2000284TW 41 I 1 1 H 1 One-to-one, I n 1 ϋ ϋ 1 ϋ ϋ I (Please read the notes on the back and fill out this page)
鵠 本紙張尺度適用中國國家標準(CNS)A4規格(210 X 297公釐) 1284746 經濟部智慧財產局員工消費合作社印製 A7 B7 五、發明說明(4¾鹄 This paper scale applies to China National Standard (CNS) A4 specification (210 X 297 mm) 1284746 Ministry of Economic Affairs Intellectual Property Bureau employee consumption cooperative printing A7 B7 V. Invention description (43⁄4
Ag94.0 Au 3.0 Ta 3.0 沒 變 沒 變 Ag99.8 Au 0.1 Mo 0.1 沒 變 沒 變 Ag98.4 Au 0.1 Mo 1.5 沒 變 沒 變 Ag96.9 Au 0.1 Mo 3.0 沒 變 沒 變 Ag98.4 Au 1.5 Mo 0.1 沒 變 沒 變 Ag97.0 Au 1.5 Mo 1.5 沒 變 沒 變 Ag95.5 Au 1.5 Mo 3.0 沒 變 沒 變 Ag96.9 Au 3.0 Mo 0.1 沒 變 沒 變 Ag95.5 Au 3.0 Mo 1.5 沒 變 沒 變 Ag94.0 Au 3.0 Mo 3.0 沒 變 沒 變 Ag99.8 Au 0.1 Ni 0.1 沒 變 沒 變 Ag98.4 Au 0.1 Ni 1.5 沒 變 沒 變 Ag96.9 Au 0.1 Ni 3.0 沒 變 沒 變 Ag98.4 Au 1.5 Ni 0.1 沒 變 沒 變 Ag97.0 Au 1.5 Ni 1.5 沒 變 沒 變 Ag95.5 Au 1.5 Ni 3.0 沒 變 沒 變 Ag96.9 Au 3.0 Ni 0.1 沒 變 沒 變 Ag95.5 Au 3.0 Ni 1.5 沒 變 沒 變 Ag94.0 Au 3.0 Ni 3.0 沒 變 沒 變 Ag99.8 Au 0.1 A1 0.1 沒 變 沒 變 Ag98.4 Au 0.1 A1 1.5 沒 變 沒 變 Ag96.9 Au 0.1 A1 3.0 沒 變 沒 變 Ag98.4 Au 1.5 A1 0.1 沒 變 沒 變 Ag97.0 Au 1.5 A1 1.5 沒 變 沒 變 Ag95.5 Au 1.5 A1 3.0 沒 變 沒 變 Ag96.9 Au 3.0 A1 0.1 沒 變 沒 變 Ag95.5 Au 3.0 A1 1.5 沒 變 沒 變 Ag94.0 Au 3.0 A1 3.0 沒 變 沒 變 Ag99.8 Au 0.1 NbO.l 沒 變 沒 變 Ag98.4 Au 0.1 Nb 1.5 沒 變 沒 變 Ag96.9 Au 0.1 Nb 3.0 沒 變 沒 變 Ag98.4 Au 1.5 Nb 0.1 沒 變 沒 變 Ag97.0 Au 1.5 Nb 1.5 沒 變 沒 變 Ag95.5 Au 1.5 Nb 3.0 沒 變 沒 變 Ag96.9 Au 3.0 Nb 0.1 沒 變 沒 變 Ag95.5 Au 3.0 Nb 1.5 沒 變 沒 變 Ag94.0 Au 3.0 Nb 3.0 沒 變 沒 變 40NDA200104TW: P1P2000284TW 42 ;- I- ϋ ϋ ϋ ϋ ϋ ϋ^OJI n ϋ I» ϋ ^1 i-i I (請先閱讀背面之注意事^:填寫本頁)Ag94.0 Au 3.0 Ta 3.0 No change No change Ag99.8 Au 0.1 Mo 0.1 No change No change Ag98.4 Au 0.1 Mo 1.5 No change No change Ag96.9 Au 0.1 Mo 3.0 No change No change Ag98.4 Au 1.5 Mo 0.1 No change No change Ag97.0 Au 1.5 Mo 1.5 No change No change Ag95.5 Au 1.5 Mo 3.0 No change No change Ag96.9 Au 3.0 Mo 0.1 No change No change Ag95.5 Au 3.0 Mo 1.5 No change No change Ag94 .0 Au 3.0 Mo 3.0 No change No change Ag99.8 Au 0.1 Ni 0.1 No change No change Ag98.4 Au 0.1 Ni 1.5 No change No change Ag96.9 Au 0.1 Ni 3.0 No change No change Ag98.4 Au 1.5 Ni 0.1 No change No change Ag97.0 Au 1.5 Ni 1.5 No change No change Ag95.5 Au 1.5 Ni 3.0 No change No change Ag96.9 Au 3.0 Ni 0.1 No change No change Ag95.5 Au 3.0 Ni 1.5 No change No change Ag94. 0 Au 3.0 Ni 3.0 No change No change Ag99.8 Au 0.1 A1 0.1 No change No change Ag98.4 Au 0.1 A1 1.5 No change No change Ag96.9 Au 0.1 A1 3.0 No change No change Ag98.4 Au 1.5 A1 0.1 No Change No change Ag97.0 Au 1.5 A1 1.5 No change No change Ag95.5 Au 1.5 A1 3.0 No change No change Ag96.9 Au 3.0 A1 0.1 No change No change Ag95.5 Au 3. 0 A1 1.5 No change No change Ag94.0 Au 3.0 A1 3.0 No change No change Ag99.8 Au 0.1 NbO.l No change No change Ag98.4 Au 0.1 Nb 1.5 No change No change Ag96.9 Au 0.1 Nb 3.0 No change No change Ag98.4 Au 1.5 Nb 0.1 No change No change Ag97.0 Au 1.5 Nb 1.5 No change No change Ag95.5 Au 1.5 Nb 3.0 No change No change Ag96.9 Au 3.0 Nb 0.1 No change No change Ag95.5 Au 3.0 Nb 1.5 No change No change Ag94.0 Au 3.0 Nb 3.0 No change No change 40NDA200104TW: P1P2000284TW 42 ;- I- ϋ ϋ ϋ ϋ ϋ ϋ^OJI n ϋ I» ϋ ^1 ii I (Please read the back of the note first) ^: Fill in this page)
PI 本紙張尺度適用中國國家標準(CNS)A4規格(210 X 297公釐) 1284746 A7 B7 五、發明說明(^3)PI This paper scale applies to China National Standard (CNS) A4 specification (210 X 297 mm) 1284746 A7 B7 V. Description of invention (^3)
AgRuX 表 5 (續) 經濟部智慧財產局員工消費合作社印制衣 材料組成分 (wt%) 高溫與高溼度測試結果 化學特性的變化 (反射率降低) 化學特性的變 化(反射率降 低) Ag98.0 Ru 2.0 許多黑色污點 發生剝離 Ag97.0 Ru 3.0 適度的黑色污點 發生剝離 Ag99.8 Ru 0.1 Cu 0.1 沒 變 沒 變 Ag99.4 Ru 0.5 Cu 0.1 沒 變 沒 變 Ag98.1 Ru 0.9 Cu 1.0 沒 變 沒 變 Ag98.9 Ru 1.0 Cu 0.1 沒 變 沒 變 Ag97.9 Ru 2.0 Cu 0.1 沒 變 沒 變 Ag96.9 Ru 3.0 Cu 0.1 沒 變 沒 變 Ag96.5 Ru 3.0 Cu0.5 沒 變 沒 變 Ag94.0 Ru 3.0 Cu 3.0 沒 變 沒 變 Ag99.8 Ru 0.1 Ti 0.1 沒 變 沒 Μ Ag99.4 Ru 0.5 Ti 0.1 沒 變 沒 變 Ag98.1 Ru 0.9 Ti 1.0 沒 變 沒 變 Ag98.9 Ru 1.0 Ti 0.1 沒 變 沒 變 Ag97.9 Ru 2.0 Ti 0.1 沒 變 沒 變 Ag96.9 Ru 3.0 Ti 0.1 沒 變 沒 變 Ag96.5 Ru 3.0 Ti 0.5 沒 變 沒 變 Ag94.0 Ru 3.0 Ti 3.0 沒 變 沒 變 Ag99.8 Ru 0.1 Cr 0.1 沒 變 沒 變 Ag98.4 Ru 0.1 Cr 1.5 沒 變 沒 變 Ag96.9 Ru 0.1 Cr 3.0 沒 變 沒 變 Ag98.4 Ru 1.5 Cr 0.1 沒 變 沒 變 Ag97.0 Ru 1.5 Cr 1.5 沒 變 沒 變 Ag95.5 Ru 1.5 Cr 3.0 沒 變 沒 變 Ag96.9 Ru 3.0 Cr 0.1 沒 變 沒 變 Ag95.5 Ru 3.0 Cr 1.5 沒 變 沒 變 Ag94.0 Ru 3.0 Cr 3.0 沒 變 沒 變 Ag99.8 Ru 0.1 Ta 0.1 沒 變 沒 變 Ag98.4 Ru 0.1 Ta 1.5 沒 變 沒 變 Ag96.9 Rd 0.1 Ta 3.0 沒 變 沒 變 Ag98.4 Ru 1.5 Ta 0.1 沒 變 沒 變 Ag97.0 Ru 1.5 Ta 1.5 沒 變 沒 變 Ag95.5 Ru 1.5 Ta 3.0 沒 變 沒 變 Ag96.9 Ru 3.0 Ta 0.1 沒 變 沒 變 Ag95.5 Ru 3.0 Ta 1.5 沒 變 沒 變 40NDA200104TW; P1P2000284TW 43 本紙張尺度適用中國國家標準(CNS)A4規格(210 X 297公釐) · ϋ ϋ ϋ ϋ ϋ i^i ϋ 0、I ϋ ϋ ϋ n Βϋ >ϋ ϋ I (請先閱讀背面之注意事項再填寫本頁) β 1284746 經濟部智慧財產局員工消費合作社印製 A7 B7AgRuX Table 5 (continued) Ministry of Economic Affairs Intellectual Property Bureau Staff Consumer Cooperatives Printing Materials Composition (wt%) High-temperature and high-humidity test results Chemical characteristics change (reflectance reduction) Chemical characteristics change (reflectance reduction) Ag98. 0 Ru 2.0 Many black stains peeled off Ag97.0 Ru 3.0 Moderate black stains peeled off Ag99.8 Ru 0.1 Cu 0.1 No change Ag99.4 Ru 0.5 Cu 0.1 No change No change Ag98.1 Ru 0.9 Cu 1.0 No change No change Ag98.9 Ru 1.0 Cu 0.1 No change No change Ag97.9 Ru 2.0 Cu 0.1 No change No change Ag96.9 Ru 3.0 Cu 0.1 No change No change Ag96.5 Ru 3.0 Cu0.5 No change No change Ag94.0 Ru 3.0 Cu 3.0 has not changed, Ag99.8 Ru 0.1 Ti 0.1 has not changed, Ag99.4 Ru 0.5 Ti 0.1 has not changed, Ag98.1 Ru 0.9 Ti 1.0 has not changed, Ag98.9 Ru 1.0 Ti 0.1 has not changed No change Ag97.9 Ru 2.0 Ti 0.1 No change No change Ag96.9 Ru 3.0 Ti 0.1 No change No change Ag96.5 Ru 3.0 Ti 0.5 No change No change Ag94.0 Ru 3.0 Ti 3.0 No change No change Ag99.8 Ru 0.1 Cr 0.1 No change, no change, Ag98.4 Ru 0.1 Cr 1.5 No change, no change, Ag96 .9 Ru 0.1 Cr 3.0 No change No change Ag98.4 Ru 1.5 Cr 0.1 No change No change Ag97.0 Ru 1.5 Cr 1.5 No change No change Ag95.5 Ru 1.5 Cr 3.0 No change No change Ag96.9 Ru 3.0 Cr 0.1 No change, no change, Ag95.5, Ru 3.0 Cr 1.5, no change, no change, Ag94.0, Ru 3.0, Cr 3.0, no change, no change, Ag99.8, Ru 0.1 Ta 0.1, no change, no change, Ag98.4, Ru 0.1 Ta 1.5, no change, no change, Ag96. 9 Rd 0.1 Ta 3.0 No change No change Ag98.4 Ru 1.5 Ta 0.1 No change No change Ag97.0 Ru 1.5 Ta 1.5 No change No change Ag95.5 Ru 1.5 Ta 3.0 No change No change Ag96.9 Ru 3.0 Ta 0.1 No Change No change Ag95.5 Ru 3.0 Ta 1.5 No change No change 40NDA200104TW; P1P2000284TW 43 This paper size applies to China National Standard (CNS) A4 specification (210 X 297 mm) · ϋ ϋ ϋ ϋ ϋ i^i ϋ 0, I ϋ ϋ ϋ n Βϋ >ϋ ϋ I (please read the notes on the back and fill out this page) β 1284746 Ministry of Economic Affairs Intellectual Property Bureau Staff Consumer Cooperative Printed A7 B7
五、發明說明(AAOV. Description of invention (AAO
Ag94.0 Ru 3.0 Ta 3.0 沒 變 沒 變 Ag99.8 Ru 0.1 Mo 0.1 沒 變 沒 變 Ag98.4 Ru 0.1 Mo 1.5 沒 變 沒 變 Ag96.9 Ru 0.1 Mo 3.0 沒 變 沒 變 Ag98.4 Ru 1.5 Mo 0.1 沒 變 沒 變 Ag97.0 Ru 1.5 Mo 1.5 沒 變 沒 變 Ag95.5 Ru 1.5 Mo 3.0 沒 變 沒 變 Ag96.9 Ru 3.0 Mo 0.1 沒 變 沒 變 Ag95.5 Ru 3.0 Mo 1.5 沒 變 沒 變 Ag94.0 Ru 3.0 Mo 3.0 沒 變 沒 變 Ag99.8 Ru 0.1 Ni 0.1 沒 變 沒 變 Ag98.4 Ru 0.1 Ni 1.5 沒 變 沒 變 Ag96.9 Ru 0.1 Ni 3.0 沒 變 沒 變 Ag98.4 Ru 1.5 Ni 0.1 沒 變 沒 變 Ag97.0 Ru 1.5 Ni 1.5 沒 變 沒 變 Ag95.5 Ru 1.5 Ni 3.0 沒 變 沒 變 Ag96.9 Ru 3.0 Ni 0.1 沒 變 沒 變 Ag95.5 Ru 3.0 Ni 1.5 沒 變 沒 變 Ag94.0 Ru 3.0 Ni 3.0 沒 變 沒 變 Ag99.8 Ru 0.1 A1 0.1 沒 變 沒 變 Ag98.4 Ru 0.1 A1 1.5 沒 變 沒 變 Ag96.9 Ru 0.1 A1 3.0 沒 變 沒 變 Ag98.4 Ru 1.5 A1 0.1 沒 變 沒 變 Ag97.0 Ru 1.5 A1 1.5 沒 變 沒 變 Ag95.5 Ru 1.5 A1 3.0 沒 變 沒 變 Ag96.9 Ru 3.0 A1 0.1 沒 變 沒 變 Ag95.5 Ru 3.0 A1 1.5 沒 變 沒 變 Ag94.0 Ru 3.0 A1 3.0 沒 變 沒 變 Ag99.8 Ru 0.1 NbO.l 沒 變 沒 變 Ag98.4 Ru 0.1 Nb 1.5 沒 變 沒 變 Ag96.9 Rd 0.1 Nb 3.0 沒 變 沒 變 Ag98.4 Ru 1.5 Nb 0.1 沒 變 沒 變 Ag97.0 Ru 1.5 Nb 1.5 沒 變 沒 變 Ag95.5 Ru 1.5 Nb 3.0 沒 變 沒 變 Ag96.9 Ru 3.0 Nb 0.1 沒 變 沒 變 Ag95.5 Ru 3.0 Nb 1.5 沒 變 沒 變 Ag94.0 Ru 3.0 Nb 3.0 沒 變 沒 變 40NDA200104TW: P1P2000284TW 44 t------ (請先閱讀背面之注意事W:填寫本頁) ·11111111 f 本紙張尺度適用中國國家標準(CNS)A4規格(210 X 297公釐) 1284746 A7 B7 五 經濟部智慧財產局員工消費合作社印製 發明說明(+5) 如表5所示,經過24小時候三元銀合金反射層未觀察 到任變化。當位於各種樹脂基底上之三元反射層的反射率 使用分光光度計予以測量時,未觀察到反射率在565nm波 長降低,對於反射型液晶顯示裝置是有用的;未觀察到反 射率在400nm至4//m之間降低,這對於建築玻璃而言是 必須的(未顯示資料)。 本發明的三元反射層證明具有高化學穩定性對抗樹 脂,並且不像傳統層,並不限定於特定的基底材料。 實施例4 檢查本發明三元反射層與各種基底之間的接著性,以 及基膜,其係置於反射層與基底之間,對於接著的效果。 首先,反射層藉由無線電頻率濺鍍直接沉積到 PMMA、PET、PC、矽氧烷樹脂、丙烯酸樹脂、非鹼性玻 璃、低鹼性玻璃、硼矽玻璃、以及石英玻璃基底上,以形 成一層積體。貼附一日本工業標準玻璃紙膠帶到反射層。 觀察當膠帶於給定的張力撕開時,反射層從基底的剝離。 另外,層積體以切刀切割成小塊並且浸於燒杯中的純水 內,施加超音波到純水,超音波的頻率爲50kHz且電功率 爲100W。當使用超音波後,於40倍的顯微鏡下觀察反射 層的剝離,並且檢查基膜的必要性。 40NDA200104TW: P1P2000284TW 45 本紙張尺度適用中國國家標準(CNS)A4規格(210 X 297公釐) 裝------ (請先閱讀背面之注意事^5:填寫本頁) f填 11111111 f 經濟部智慧財產局員工消費合作社印製 1284746 Α7 Β7 五、發明說明(β) 表7 材料 波長 565.00 nm .波長^ 450.00 nm 波長 500.00 nm 波長· 550.00 nm :'波長· 565.00 nm 反射率(%) 反射率(%) 反射率(%) 反射率(%) 反射率(%) _純Ag 94.80 96.60 97.70 97.90 98.00 AgPd 92.30 94.05 95.12 95.32 95.42 AgPdCu 91.50 92.40 93.60 94.10 93.36 A^PdTi - 88.90 90.59 91.62 91.81 91.90 A^PdCr 88.40 90.08 91.11 91.29 91.38 A^PdTa 88.30 89.98 91.00 91.19 91.28 A^PdMo 88.00 89.67 90.69 90.88 90.97 A^PdNi 88.20 89.77 90.89 90.98 91.17 A^PdAl 88.90 90.49 91.61 91.70 91.79 A^PdNb 88.80 90.38 91.51 91.60 91.79 AgAu 92.80 94.56 95.64 95.83 95.93 A^AuCu 92.46 94.22 95.29 95.48 95.58 A^AuTi 88.44 ^ 90.12 91.15 91.33 91.43 A^AuCr 88.56 90.24 91.27 91.46 91.55 AgAuTa 88.30 89.98 91.00 91.19 91.28 A^AuNi 88.00 89.67 90.69 90.88 90.97 AgAuMo 88.10 89.77 90.80 90.98 91.07 A^AuPd 89.00 90.69 91.72 91.91 92.00 AgAuAl 88.70 , 90.39 91.41 91.60 91.69 A^AuNb 88.60 90.28 91.31 91.50 91.59 AgRu 89.00 90.69 91.72 91.91 92.00 AgRuCu , ,88.45 90.13 91.16 91.34 91.44 AgRuTi / 88.34 90.02 91.04 91.23 91.32 AgRuCr 88.76 90.45 91.48 91.66 91.76 AgRuTa 88.23 89.91 90.93 91.12 91.21 AgRuNi 87.80 89.47 90.49 90.67 90.76 A^RuMo 88.44 90.12 91.15 91.33 91.43 AgRuPd •87.67 89.34 90.35 90.54 f 90.63 AgRuAl 88.97 90.66 91.69 91.88 ! 91.97 AgRuNb 87.9S 89.65 90.67 90.86 90.95 40NDA200104TW; P1P2000284TW 48 裝I (請先閱讀背面之注意事填寫本頁) 11111111 f 本紙張尺度適用中國國家標準(CNS)A4規格(210 X 297公釐) 1284746 A7 B7 五、發明說明(4^) 特別地,二氧化鈦、五氧化二鉅、二氧化鉻、三氧化 二銦、二氧化錫、五氧化二鈮、以及氧化鎂基膜具有高反 射率以及低吸收率,如表8中的三氧化二銦-五氧化二鈮所 代表的。根據折射率的光學特性變化於這些膜中被防止了。 表8 I - . · ' Ιη203· 15wt%Nb2 ΙΠ·2〇3· 12.5\vt%Nb2 〇, I Π·2〇3· 10wt%Nb2 0, Ιϋ2〇3· 7.5wt%Nb, 0, Ιη203· 5wt%Nb205 反射率 •反射率 反射率 <反射率. 反射率 40 0 2.34 2.32 2.34 2.30 2.34 45 0 2.26 2.25 2.26 2:23 2.26 50 .0 2.22 2.21 2.21 2.18 2.20 55 0 2.19 2.18 2.18 2.16 2.17 56 0 2.19 2.18 2.17- 2.15 2.17 .^1 ϋ 1 1 Βϋ 1 一一0、 i-i ϋ n (請先閱讀背面之注音3事填寫本頁) 經濟部智慧財產局員工消費合作社印製 實施例5 I 檢查覆蓋層對於反射層之耐熱性以及反射率的效應。 於傳統銀反射層(純銀或二元銀合金)或者本發明三元反 射層上,沉積一覆蓋層,其包括三氧化二銦做爲主要成分 以及二氧化錫、五氧化二鈮、二氧化錫、氧化鎂以及五氧 化二鉅的至少其中之一,以形成一層積體。層積體於250 °C進行回火,其係液晶顯示裝置製造過程中施加到基底的 溫度。 40NDA200104TW; P1P2000284TW , 1 本紙張尺度適用中國國家標準(CNS)A4規格(210 X 297公釐) 1284746 A7 B7 五、發明說明(s〇) 在沒有覆蓋層的情況下,反射層的光學吸收率於回火 後增加,其導致層的劣質化,如表9所示。覆蓋層被用以 耐熱的光學吸收率實驗資料顯示於表10至12。 經濟部智慧財產局員工消費合作社印製 沒有覆蓋層 材料 回火 as-depo 波長 波長 波長 波長 波長 •波長 波長 波長 波長 波長 400.00 450.00 500.00 550.00 565.00 400.00 450.00 500.00 550.00 565.00 nm nm nm nm nm nm nm nm nm nm 吸收率 吸收率 吸收率ί吸收率 吸收率 吸收率 吸收率 口 1收率 吸收率 吸收率 (%) (%) (%) 1 (%) (%) (%) (%) (%) (%) (%) pure Ag 5.2 3.6 2.8 2.8 1.9 5 3.2 2.1 2.6 1.8 Ag?d 6.4 5.5 6.3 5.5 5.1 6.0 5.2 6.1 5.4 5.0 A^PdCu 6.6 5.7 6.5 5.8 5.5 6.5 5.6 6.2 5.7 5.1 A^PdTi 6.9 5.9 6.6 5.7 5.5 6.7 5.8 6.4 5.6 5.3 AgPdCr 6.8 5.9 6.5 5.7 5.3 6.6 5.8 6.3 5.5 5.0 AgPdTa 6.6 5.8 6.6 5.8 5.3 6.4 5.5 6.3 5.6 5.0 AgPdMo 6.8 6.9 6.4 5.5 5.5 6.6 6.7 6.3 5.5 5.2 AgPdNi 6.7 5.7 6.2 5.5 5.4 6.4 5.7 5.9 5.5 5.1 AgPdAl 6.6 6.6 6.4 5.5 5.2 6.5 6.5 6.2 5.5 5.1 AgPdNb 6.7 5.8 6.3 5.7 5.1 6.5 5.7 6.3 5.4 4.9 AgAu 6.3 5.3 6.2 5.3 5.0 6.0 5.1 6.0 5.2 5.0 AgAuCu 7.4 6.7 7.2 6.2 6.2 7.1 6.5 7.0 6.1 6.0 AgAuTi 6.6 5.8 6.4 5.7 5.3 6.4 5.2 6.3 5.6 5.2 AgAuCr 6.8 5.9 6.6 •5.8 5.5 6.7 5.8 6.4 5.6 5.3 AgAuTa 6.9 5.9 6.5 5.7 5.3 6.6 5.8 6.3 5.6 5.2 AgAuNi 6.8 5.9 6.3 5.7 5.4 6.5 5.8 6.1 5.6 5.2 AgAuMo 6.7 6.8 6.4 5.6 5.4 6.6 6.7 6.3 5.5 5.2 AgAuPd 7.5 6.3 7.5 6.3 6.2 7.1 6.1 7.0 6.2 6.0 AgAuAl 6.7 6.7 6.5 5.6 5.4 6.6 6.5 6.3 5.5 5.2 AgAuNb 6.8 5.9 6.4 5.7 5.2 6.6 5.8 6.3 5.5 5.0 AgRu 6.3 5.4 6.2 5.3 5.2 6.1 5.1 6.0 5.3 5.1 AgRuCu 6.8 5.9 6.4 5.7 5.2 6.4 5.5 6.3 5.6 5.0 AgRuTi 6.7 5.9 6.5 5.6 5.2 6.6 5.8 6.3 5.5 5.0 AgRuCr 6.7 5.9 6.6 5.7 5.3 6.5 5.7 6.3 5.5 5.0 AgRuTa 6.5 5.8 · 6.7 5.7 5.2 6.4 5.5 6.3 5.6 5.0 . AgRuNi 7.3 ,6.6 7.5 6.3 6.3 7.1 6.4 7.0 6.1 6.0 AgRuMo 7.3 6.8 7.3 6.2 6.2 7.1 6.3 7.1 6.1 6.0 AgRuPd 6.7 6.8 6.4 5.5 5.3 6.6 6.6 6.2 5.4 5.2 AgRuAl 6.8 6.9 6.4 5.6 5.3 6.6 6.7 6.3 5.5 5.2 AgRuNb 6.8 6.9 6.3 5.6 5.4 6.5 6.6 6.1 5.5 5.2 40NDA200104TW; P1P2000284TW 50 裝------- (請先閱讀背面之注意事¾再填寫本頁) — — — — — — — — — 鳟 本紙張尺度適用中國國家標準(CNS)A4規格(210 X 297公釐) 1284746 A7 B7Ag94.0 Ru 3.0 Ta 3.0 has not changed, Ag99.8 Ru 0.1 Mo 0.1 has not changed, Ag98.4 Ru 0.1 Mo 1.5 has not changed, Ag96.9 Ru 0.1 Mo 3.0 has not changed, Ag98.4 Ru 1.5 Mo 0.1 No change No change Ag97.0 Ru 1.5 Mo 1.5 No change No change Ag95.5 Ru 1.5 Mo 3.0 No change No change Ag96.9 Ru 3.0 Mo 0.1 No change No change Ag95.5 Ru 3.0 Mo 1.5 No change No change Ag94 .0 Ru 3.0 Mo 3.0 No change No change Ag99.8 Ru 0.1 Ni 0.1 No change No change Ag98.4 Ru 0.1 Ni 1.5 No change No change Ag96.9 Ru 0.1 Ni 3.0 No change No change Ag98.4 Ru 1.5 Ni 0.1 No change No change Ag97.0 Ru 1.5 Ni 1.5 No change No change Ag95.5 Ru 1.5 Ni 3.0 No change No change Ag96.9 Ru 3.0 Ni 0.1 No change No change Ag95.5 Ru 3.0 Ni 1.5 No change No change Ag94. 0 Ru 3.0 Ni 3.0 No change No change Ag99.8 Ru 0.1 A1 0.1 No change No change Ag98.4 Ru 0.1 A1 1.5 No change No change Ag96.9 Ru 0.1 A1 3.0 No change No change Ag98.4 Ru 1.5 A1 0.1 No Change No change Ag97.0 Ru 1.5 A1 1.5 No change No change Ag95.5 Ru 1.5 A1 3.0 No change No change Ag96.9 Ru 3.0 A1 0.1 No change No change Ag95.5 Ru 3. 0 A1 1.5 No change No change Ag94.0 Ru 3.0 A1 3.0 No change No change Ag99.8 Ru 0.1 NbO.l No change No change Ag98.4 Ru 0.1 Nb 1.5 No change No change Ag96.9 Rd 0.1 Nb 3.0 No change No change Ag98.4 Ru 1.5 Nb 0.1 No change No change Ag97.0 Ru 1.5 Nb 1.5 No change No change Ag95.5 Ru 1.5 Nb 3.0 No change No change Ag96.9 Ru 3.0 Nb 0.1 No change No change Ag95.5 Ru 3.0 Nb 1.5 No change No change Ag94.0 Ru 3.0 Nb 3.0 No change No change 40NDA200104TW: P1P2000284TW 44 t------ (Please read the note on the back first: W: Fill in this page) ·11111111 f This paper size applies China National Standard (CNS) A4 Specification (210 X 297 mm) 1284746 A7 B7 Five Ministry of Economic Affairs Intellectual Property Bureau Staff Consumer Cooperative Printed Description (+5) As shown in Table 5, after 24 hours ternary silver alloy reflective layer No changes were observed. When the reflectance of the ternary reflective layer on various resin substrates was measured using a spectrophotometer, no decrease in reflectance at a wavelength of 565 nm was observed, which was useful for a reflective liquid crystal display device; no reflectance was observed at 400 nm to A reduction between 4/m is necessary for architectural glass (data not shown). The ternary reflective layer of the present invention proves to have high chemical stability against the resin, and unlike conventional layers, is not limited to a particular substrate material. Example 4 The adhesion between the ternary reflective layer of the present invention and various substrates was examined, as well as the base film, which was placed between the reflective layer and the substrate for the subsequent effect. First, the reflective layer is deposited directly onto PMMA, PET, PC, siloxane resin, acrylic, non-alkaline glass, low-alkaline glass, borosilicate glass, and quartz glass substrates by radio frequency sputtering to form a layer. Integral. Attach a Japanese industrial standard cellophane tape to the reflective layer. The peeling of the reflective layer from the substrate was observed when the tape was torn at a given tension. Further, the laminate was cut into small pieces by a cutter and immersed in pure water in a beaker, and ultrasonic waves were applied to pure water at a frequency of 50 kHz and an electric power of 100 W. After the ultrasonic wave was used, the peeling of the reflective layer was observed under a 40-fold microscope, and the necessity of the base film was examined. 40NDA200104TW: P1P2000284TW 45 This paper size is applicable to China National Standard (CNS) A4 specification (210 X 297 mm). ------ (Please read the note on the back first ^5: fill this page) f Fill 11111111 f Economy Ministry of Intellectual Property Bureau employee consumption cooperative printed 1284746 Α7 Β7 5, invention description (β) Table 7 material wavelength 565.00 nm. Wavelength ^ 450.00 nm wavelength 500.00 nm wavelength · 550.00 nm : 'wavelength · 565.00 nm reflectance (%) reflectivity (%) Reflectance (%) Reflectance (%) Reflectance (%) _Pure Ag 94.80 96.60 97.70 97.90 98.00 AgPd 92.30 94.05 95.12 95.32 95.42 AgPdCu 91.50 92.40 93.60 94.10 93.36 A^PdTi - 88.90 90.59 91.62 91.81 91.90 A^PdCr 88.40 90.08 91.11 91.29 91.38 A^PdTa 88.30 89.98 91.00 91.19 91.28 A^PdMo 88.00 89.67 90.69 90.88 90.97 A^PdNi 88.20 89.77 90.89 90.98 91.17 A^PdAl 88.90 90.49 91.61 91.70 91.79 A^PdNb 88.80 90.38 91.51 91.60 91.79 AgAu 92.80 94.56 95.64 95.83 95.93 A^AuCu 92.46 94.22 95.29 95.48 95.58 A^AuTi 88.44 ^ 90.12 91.15 91.33 91.43 A^AuCr 88.56 90.24 91.27 91.46 91.55 AgAuTa 88.30 89.98 91.00 91.19 91.28 A^AuNi 88.00 89.67 90.69 90.88 90.97 AgAuMo 88.10 89.77 90.80 90.98 91.07 A^AuPd 89.00 90.69 91.72 91.91 92.00 AgAuAl 88.70 , 90.39 91.41 91.60 91.69 A^AuNb 88.60 90.28 91.31 91.50 91.59 AgRu 89.00 90.69 91.72 91.91 92.00 AgRuCu , , 88.45 90.13 91.16 91.34 91.44 AgRuTi / 88.34 90.02 91.04 91.23 91.32 AgRuCr 88.76 90.45 91.48 91.66 91.76 AgRuTa 88.23 89.91 90.93 91.12 91.21 AgRuNi 87.80 89.47 90.49 90.67 90.76 A^RuMo 88.44 90.12 91.15 91.33 91.43 AgRuPd •87.67 89.34 90.35 90.54 f 90.63 AgRuAl 88.97 90.66 91.69 91.88 ! 91.97 AgRuNb 87.9S 89.65 90.67 90.86 90.95 40NDA200104TW; P1P2000284TW 48 Install I (please read the note on the back) Fill in this page 11111111 f This paper size applies to the Chinese National Standard (CNS) A4 specification (210 X 297 mm) 1284746 A7 B7 V. INSTRUCTIONS (4^) In particular, titanium dioxide, bismuth pentoxide, chromium dioxide, indium trioxide, tin dioxide, antimony pentoxide, and magnesium oxide based films have high reflectivity and low absorption. Rate, as shown in Table 8 Representative of indium trioxide-penta pentoxide. Variations in the optical properties of the refractive index are prevented in these films. Table 8 I - . · 'Ιη203· 15wt%Nb2 ΙΠ·2〇3· 12.5\vt%Nb2 〇, I Π·2〇3· 10wt%Nb2 0, Ιϋ2〇3· 7.5wt%Nb, 0, Ιη203· 5wt%Nb205 Reflectance• Reflectance Reflectance<Reflectance. Reflectance 40 0 2.34 2.32 2.34 2.30 2.34 45 0 2.26 2.25 2.26 2:23 2.26 50 .0 2.22 2.21 2.21 2.18 2.20 55 0 2.19 2.18 2.18 2.16 2.17 56 0 2.19 2.18 2.17- 2.15 2.17 .^1 ϋ 1 1 Βϋ 1 一1, ii ϋ n (Please read the phonetic note on the back 3) (Insert this page) Ministry of Economic Affairs Intellectual Property Office Employees Consumption Cooperative Printed Example 5 I Check Coverage The effect of the layer on the heat resistance and reflectivity of the reflective layer. Depositing a coating layer on the conventional silver reflective layer (pure silver or binary silver alloy) or the ternary reflective layer of the present invention, comprising indium trioxide as a main component and tin dioxide, antimony pentoxide, tin dioxide At least one of magnesium oxide and bismuth pentoxide to form a layer of the body. The laminate was tempered at 250 ° C, which is the temperature applied to the substrate during the manufacture of the liquid crystal display device. 40NDA200104TW; P1P2000284TW , 1 This paper size is applicable to China National Standard (CNS) A4 specification (210 X 297 mm) 1284746 A7 B7 V. Inventive Note (s〇) In the absence of a cover layer, the optical absorption of the reflective layer is Increased after tempering, which leads to the deterioration of the layer, as shown in Table 9. The experimental data of the optical absorption rate of the cover layer used for heat resistance are shown in Tables 10 to 12. Ministry of Economic Affairs Intellectual Property Office Staff Consumer Cooperative Printed without Cover Material Tempered as-depo Wavelength Wavelength Wavelength Wavelength • Wavelength Wavelength Wavelength Wavelength Wavelength 400.00 450.00 500.00 550.00 565.00 400.00 450.00 500.00 550.00 565.00 nm nm nm nm nm nm nm nm nm nm Absorption rate Absorption rate Absorption rate Absorption rate Absorption rate Absorption rate Absorption rate Port 1 Yield Absorption rate Absorption rate (%) (%) (%) 1 (%) (%) (%) (%) (%) (% (%) pure Ag 5.2 3.6 2.8 2.8 1.9 5 3.2 2.1 2.6 1.8 Ag?d 6.4 5.5 6.3 5.5 5.1 6.0 5.2 6.1 5.4 5.0 A^PdCu 6.6 5.7 6.5 5.8 5.5 6.5 5.6 6.2 5.7 5.1 A^PdTi 6.9 5.9 6.6 5.7 5.5 6.7 5.8 6.4 5.6 5.3 AgPdCr 6.8 5.9 6.5 5.7 5.3 6.6 5.8 6.3 5.5 5.0 AgPdTa 6.6 5.8 6.6 5.8 5.3 6.4 5.5 6.3 5.6 5.0 AgPdMo 6.8 6.9 6.4 5.5 5.5 6.6 6.7 6.3 5.5 5.2 AgPdNi 6.7 5.7 6.2 5.5 5.4 6.4 5.7 5.9 5.5 5.1 AgPdAl 6.6 6.6 6.4 5.5 5.2 6.5 6.5 6.2 5.5 5.1 AgPdNb 6.7 5.8 6.3 5.7 5.1 6.5 5.7 6.3 5.4 4.9 AgAu 6.3 5.3 6.2 5.3 5.0 6.0 5.1 6.0 5.2 5.0 AgAuCu 7.4 6.7 7.2 6.2 6.2 7.1 6.5 7.0 6.1 6.0 AgAuTi 6. 6 5.8 6.4 5.7 5.3 6.4 5.2 6.3 5.6 5.2 AgAuCr 6.8 5.9 6.6 5.8 5.5 6.7 5.8 6.4 5.6 5.3 AgAuTa 6.9 5.9 6.5 5.7 5.3 6.6 5.8 6.3 5.6 5.2 AgAuNi 6.8 5.9 6.3 5.7 5.4 6.5 5.8 6.1 5.6 5.2 AgAuMo 6.7 6.8 6.4 5.6 5.4 6.6 6.7 6.3 5.5 5.2 AgAuPd 7.5 6.3 7.5 6.3 6.2 7.1 6.1 7.0 6.2 6.0 AgAuAl 6.7 6.7 6.5 5.6 5.4 6.6 6.5 6.3 5.5 5.2 AgAuNb 6.8 5.9 6.4 5.7 5.2 6.6 5.8 6.3 5.5 5.0 AgRu 6.3 5.4 6.2 5.3 5.2 6.1 5.1 6.0 5.3 5.1 AgRuCu 6.8 5.9 6.4 5.7 5.2 6.4 5.5 6.3 5.6 5.0 AgRuTi 6.7 5.9 6.5 5.6 5.2 6.6 5.8 6.3 5.5 5.0 AgRuCr 6.7 5.9 6.6 5.7 5.3 6.5 5.7 6.3 5.5 5.0 AgRuTa 6.5 5.8 · 6.7 5.7 5.2 6.4 5.5 6.3 5.6 5.0 . AgRuNi 7.3 , 6.6 7.5 6.3 6.3 6.4 7.0 6.1 6.0 AgRuMo 7.3 6.8 7.3 6.2 6.2 7.1 6.3 7.1 6.1 6.0 AgRuPd 6.7 6.8 6.4 5.5 5.3 6.6 6.6 6.2 5.4 5.2 AgRuAl 6.8 6.9 6.4 5.6 5.3 6.6 6.7 6.3 5.5 5.2 AgRuNb 6.8 6.9 6.3 5.6 5.4 6.5 6.6 6.1 5.5 5.2 40NDA200104TW; P1P2000284TW 50 Pack ------- (Please read the note on the back first and then fill out this page) — — — — — — — — — 鳟本纸Zhang scale applies to China National Standard (CNS) A4 specification (210 X 297 mm) 1284746 A7 B7
五、發明說明(sU 表10V. Description of the invention (sU Table 10
Si〇9/Ag合金 經濟部智慧財產局員工消費合作社印製 材料 Si(X回火 SiO·; as*depo 波長 400.00 nm 波長 450.00 nm 波長 500.00 nm 波長 550.00 nm 波長 565.00 nm 波長 400.00 nm 波長 450.00 nm 波長 500.00 nm 波長 550.00 nm 波長 565.00 nm 吸收率 (%) 吸收率 (%) 吸收率 (%) 吸收率 (%) 吸收率 (%) 吸收率 (%): 吸收率 (%) 吸收率 (%) 吸收率 (%) 吸收率 (%) pure Ag 26.5 11.65 4.92 4.72 5.02 34.5 16.64 5.81 5.71 5.05 A^Pd 26.8 12.59 5.68 5.23 6.96 27.8 14.59 8.68 6.23 8.98 A^PdCu 27.09 13.06 8.94 6.77 6.28 35.8 18.64 11.91 8.74 8.Q5 A^PdTi 36.5 17.54 11.45 8.58 7.59 36.8 17.68 11.85 8.76 8.00 A^PdCr 35.5 18.45 10.59 8.58 7.96 35.9 18.65 10.69 8.75 8.04 A^PdTa 36.1 18.44 11.34 8.50 7.58 36.2 18.54 11.54 8.54 8.02 A^PdMo 36.4 18.57 11.15 8.41 7.21 36.5 18.67 11.59 8.45 7.25 A^PdNi 35.78 18.21 11.07 8.29 7.37 36.29 18.55 10.94 8.25 7.11 AgPdAl 35.89 18.15 10.8 8.33 7.64 36.58 18.41 11.39 8.42 7.76 A^PdNb 35.88 18.13 10.86 8.29 6.93 36.99 18.53 11.08 8.26 7.1 A^Au 26.2 12.31 5.50 5.10 7.99 27.7 14.45 8.52 6.12 8.85 A^AuCu 36,1 17.53 11.45 8.58 7.25 36.5 18.66 11.25 8.25 7.36 A^AuTi 35.4 18.40 10.59 8.58 7.96 36.3 17.67 11.80 8.73 8.00 A^AuCr 36.0 18.32 11.34 8.50 7.58 36.2 18.64 10.25 8.75 8.04 AgAuTa 36.3 18.44 11.15 8.41 7.21 36.5 18.53 11.55 8.54 . 8.00 A^AuNi 36.0 18.31 11.32 8.50 7.58 36.4 18.66 11.20 8.41 7.25 . AgAuMo 36.0 18.35 11.58 8.50 7.58 36.8 17.65 11.84 8.73 8.00 AgAuPd 36.3 18.58 11.14 8.41 7.21 37.0 18.61 10.21 8.74 8.02 A^AuAl 36.1 18.24 11.05 •8.45 7.85 36.7 18.51 11.52 8.56 8.00 AgAuNb 36.1 18.25 11.11 8.41 7.14 37.1 18.62 11.21 8.41 7.24 A^Ru 26.5 12.45 5.55 5.25 7.96 27.7 14.59 8.75 6.35 8.99 A^RuCu 36.0 17.52 11.45 8.58 7.25 36.4 17.66 11.81 8.73 7.56 A^RuTi 35.3 18.49 10.59 8.58 7.96 36.2 18.64 10.24 8.75 7.35 A^RuCr 35.8 18.30* 11.34 8.50 7.58 36.1 18.52 11.55 8.54 8.00 . AgRuTa 36.2 18.42 11.15 8.41 7.21 36.4 18.65 11.21 8.42 7.52 A^RuNi 36.1 18.35 11.33 8.50 7.58 36.9 17.64 11.84 8.71 8.01 A^RuMo 36.1 18.34 11.58 8.50 7.58 36.8 18.60 10.22 8.72 8.02 AgRuPd 36.2 18.59 11.28 8.41 7.21 37.1 18.50 11.51 8.51 7.96 AgRuAl 36.3 18.55 11.18 8.41 7.21 36.5 18.61 11.20 8.42 7.24 AgRuNb 36.5 18.24 11.11 8.41 7.21 37.2 18.41 10.12 8.85 8.12 40NDA200104TW; P1P2000284TW 51 本紙張尺度適用中國國家標準(CNS)A4規格(210 X 297公釐) 裝——I! (請先閱讀背面之注意事填寫本頁) £ 訂-------- ·# 1284746 A7 B7 五、發明說明(5X) 表11 Ιη203-15Μ)205/Α$ 合金 經濟部智慧財產局員工消費合作社印製Si〇9/Ag Alloy Ministry of Economics Intellectual Property Bureau Staff Consumer Cooperative Printed Materials Si (X tempered SiO·; as*depo Wavelength 400.00 nm Wavelength 450.00 nm Wavelength 500.00 nm Wavelength 550.00 nm Wavelength 565.00 nm Wavelength 400.00 nm Wavelength 450.00 nm Wavelength 500.00 nm wavelength 550.00 nm wavelength 565.00 nm absorption rate (%) absorption rate (%) absorption rate (%) absorption rate (%) absorption rate (%) absorption rate (%): absorption rate (%) absorption rate (%) absorption Rate (%) Absorption rate (%) pure Ag 26.5 11.65 4.92 4.72 5.02 34.5 16.64 5.81 5.71 5.05 A^Pd 26.8 12.59 5.68 5.23 6.96 27.8 14.59 8.68 6.23 8.98 A^PdCu 27.09 13.06 8.94 6.77 6.28 35.8 18.64 11.91 8.74 8.Q5 A ^PdTi 36.5 17.54 11.45 8.58 7.59 36.8 17.68 11.85 8.76 8.00 A^PdCr 35.5 18.45 10.59 8.58 7.96 35.9 18.65 10.69 8.75 8.04 A^PdTa 36.1 18.44 11.34 8.50 7.58 36.2 18.54 11.54 8.54 8.02 A^PdMo 36.4 18.57 11.15 8.41 7.21 36.5 18.67 11.59 8.45 7.25 A^PdNi 35.78 18.21 11.07 8.29 7.37 36.29 18.55 10.94 8.25 7.11 AgPdAl 35.89 18.15 10.8 8.33 7.64 36.58 18.41 11.39 8.42 7.76 A^PdNb 35.88 18.13 10.86 8. 29 6.93 36.99 18.53 11.08 8.26 7.1 A^Au 26.2 12.31 5.50 5.10 7.99 27.7 14.45 8.52 6.12 8.85 A^AuCu 36,1 17.53 11.45 8.58 7.25 36.5 18.66 11.25 8.25 7.36 A^AuTi 35.4 18.40 10.59 8.58 7.96 36.3 17.67 11.80 8.73 8.00 A^ AuCr 36.0 18.32 11.34 8.50 7.58 36.2 18.64 10.25 8.75 8.04 AgAuTa 36.3 18.44 11.15 8.41 7.21 36.5 18.53 11.55 8.54 . 8.00 A^AuNi 36.0 18.31 11.32 8.50 7.58 36.4 18.66 11.20 8.41 7.25 . AgAuMo 36.0 18.35 11.58 8.50 7.58 36.8 17.65 11.84 8.73 8.00 AgAuPd 36.3 18.58 11.14 8.41 7.21 37.0 18.61 10.21 8.74 8.02 A^AuAl 36.1 18.24 11.05 •8.45 7.85 36.7 18.51 11.52 8.56 8.00 AgAuNb 36.1 18.25 11.11 8.41 7.14 37.1 18.62 11.21 8.41 7.24 A^Ru 26.5 12.45 5.55 5.25 7.96 27.7 14.59 8.75 6.35 8.99 A^RuCu 36.0 17.52 11.45 8.58 7.25 36.4 17.66 11.81 8.73 7.56 A^RuTi 35.3 18.49 10.59 8.58 7.96 36.2 18.64 10.24 8.75 7.35 A^RuCr 35.8 18.30* 11.34 8.50 7.58 36.1 18.52 11.55 8.54 8.00 . AgRuTa 36.2 18.42 11.15 8.41 7.21 36.4 18.65 11.21 8.42 7.52 A ^RuNi 36.1 18.35 11.33 8.50 7.5 8 36.9 17.64 11.84 8.71 8.01 A^RuMo 36.1 18.34 11.58 8.50 7.58 36.8 18.60 10.22 8.72 8.02 AgRuPd 36.2 18.59 11.28 8.41 7.21 37.1 18.50 11.51 8.51 7.96 AgRuAl 36.3 18.55 11.18 8.41 7.21 36.5 18.61 11.20 8.42 7.24 AgRuNb 36.5 18.24 11.11 8.41 7.21 37.2 18.41 10.12 8.85 8.12 40NDA200104TW; P1P2000284TW 51 This paper size is applicable to China National Standard (CNS) A4 specification (210 X 297 mm). Packing - I! (Please read the note on the back to fill out this page) £ 订-- ·# 1284746 A7 B7 V. Inventive Note (5X) Table 11 Ιη203-15Μ)205/Α$ Printed by the Intellectual Property Bureau of the Ministry of Economy and Economy
Hi-R 3火_ Hi-R as-depo 材料 波長 •波長 波長 波長 波長 波長 波長 波長 波長 波長 400.00 450.00 500.00 550.00 565.00 400.00 450.00 500.00 550.00 565.00 nm nm nm nm nm nm nm nm nm nm 吸收率 吸收率 吸收率 吸收率 吸收率 吸收率 吸收率 吸收率 吸收率 吸收率 (%) (%) (%) (%) (%) (%) (%) (%) (%) (%) pure 13.27 3.48 2.57 2.35 2.25 19.84 7.03 3.21 4.28 4.24 A^Pd 15.77 5.34 3.93 3.90 3.802 22.15 8.83 4.57 5.80 5.78 AgPdCu 16.57 6.24 4.67 4.68 4.49 22.89 9.69 5.30 6.56 6.43 A^PdTi 19.1—7 9.16 7.64 7.65 7.47 25.29 12.51 8.25 9.47 9.35 A^PdCr 19.67 9.72 8.21 8.22 8.04 25.75 13.05 8.82 10.03 9.91 A^PdTa 19.77 9.84 8.33 8.34 8.15 25.85 13.16 8.93 10.14 10.02 A^PdMo 20.07 10.17 8.67 8.68 8.50 26.12 13.48 9.27 10.48 10.36 AgPdNi 19.85 10.07 8.42 8.47 8.31 26.01 13.37 9.01 10.33 10.22 AgPdAl 19.16 9.3 7.63 7.7δ 7.49 25.36 12.63 8.36 9.56 9.34 AgPdNb 19.25 9.38 7.73 7.87 7.6 25.46 12.74 8.46 9.66 9.54 A^Au 15.27 4.78 3.18 3.19 3.00 21.69 8.28 3.82 5.10 4.98 AgAuCu 15.61 5.16 3.57 3.58 3.39 22.00 8.65 4.21 5.48 5.36 A^AuTi 19.63 9.68 8.17 8.IS 7.99 25.72 13.01 8.78 9.99 9.8+7 A^AuCr 19.51 9.54 8.03 8.04 7.86 25.61 12.88 8.64 9.85 9.73 A^AuTa 19.77 9.84 8.33 8.34 8.15 25.85 13.16 8.93 10.14 10.02 A^AuNi 20.07 10.17 8.67 8.68 8.50 26.12 13.48 9.27 10.48 10.36 A^AuMo 19.97 10.06 8.56 8,56 8.38 26.03 13.37 9.16 10.37 10.25 A^AuPd 19.07 9.05 7.53 7.54 7.35 25.20 12.40 8.14 9.36 9.24 AgAuAl 19.37 9.39 7.87 7.88 7.70 25.48 12.72 8.48 9.70 9.58~ A^AuNb 19.47 9.50 7.98 7.99 7.81 25.57 12.83 8.59 9.81 9.69 A^Ru 19.07 9.05 7.53 7.54 7.35 25.20 12.40 8.14 9.36 9.24 AgRuCu 19.62 9.67 8.16 8.16 7.98 25.71 12.99 8.76 9.98 9.86 A^RuTi 19.73 9.79 8.28 8.29 8.11 25.81 13.11 8.89 10.10 9.98 AgRuCr 19.31 9.32 7.80 7.81 7.63 25.42 12.66 8.41 9.63 9.51 A^RuTa 19.84 9.92 1 8.41 8.42 8.23 25.91 13.23 9.01 10.22 10.10. A^RuNi 20.27 10.40 8.90 8.91 8.73 26.31 13.70 9.50 10.70 10.58 . A^RuMo 19.63 9.68 8.17 8.18 7.99 25.72 13.01 8.78 9.99 9.87 A^RuPd 20.40 10.55 9.05 9.06 8.88 26.43 13.84 9.65 10.85 10.73 AgRuAl 19.10 9.08 7.56 7.57 7.39 25.23 12.43 8.17 9.39 9.27 A^RuNb 20.09 10.20 8.69 8.70 8.52 26.14 13.50 9.30 10.50 10.38 40NDA200104TW; P1P2000284TW 52 --------訂---------· (請先閱讀背面之注意事項再填寫本頁) 讀Hi-R 3 fire _ Hi-R as-depo material wavelength • wavelength wavelength wavelength wavelength wavelength wavelength wavelength wavelength 400.00 450.00 500.00 550.00 565.00 400.00 450.00 500.00 550.00 565.00 nm nm nm nm nm nm nm nm nm absorbance absorbance absorption rate Absorption rate Absorption rate Absorption rate Absorption rate Absorption rate Absorption rate Absorption rate (%) (%) (%) (%) (%) (%) (%) (%) (%) (%) pure 13.27 3.48 2.57 2.35 2.25 19.84 7.03 3.21 4.28 4.24 A^Pd 15.77 5.34 3.93 3.90 3.802 22.15 8.83 4.57 5.80 5.78 AgPdCu 16.57 6.24 4.67 4.68 4.49 22.89 9.69 5.30 6.56 6.43 A^PdTi 19.1—7 9.16 7.64 7.65 7.47 25.29 12.51 8.25 9.47 9.35 A^PdCr 19.67 9.72 8.21 8.22 8.04 25.75 13.05 8.82 10.03 9.91 A^PdTa 19.77 9.84 8.33 8.34 8.15 25.85 13.16 8.93 10.14 10.02 A^PdMo 20.07 10.17 8.67 8.68 8.50 26.12 13.48 9.27 10.48 10.36 AgPdNi 19.85 10.07 8.42 8.47 8.31 26.01 13.37 9.01 10.33 10.22 AgPdAl 19.16 9.3 7.63 7.7δ 7.49 25.36 12.63 8.36 9.56 9.34 AgPdNb 19.25 9.38 7.73 7.87 7.6 25.46 12.74 8.46 9.66 9.54 A^Au 15.27 4.78 3.18 3.19 3.00 21.69 8.28 3.82 5.10 4.98 AgAuCu 15.61 5.16 3.57 3.58 3.39 22.00 8.65 4.21 5.48 5.36 A^AuTi 19.63 9.68 8.17 8.IS 7.99 25.72 13.01 8.78 9.99 9.8+7 A^AuCr 19.51 9.54 8.03 8.04 7.86 25.61 12.88 8.64 9.85 9.73 A^AuTa 19.77 9.84 8.33 8.34 8.15 25.85 13.16 8.93 10.14 10.02 A^AuNi 20.07 10.17 8.67 8.68 8.50 26.12 13.48 9.27 10.48 10.36 A^AuMo 19.97 10.06 8.56 8,56 8.38 26.03 13.37 9.16 10.37 10.25 A^AuPd 19.07 9.05 7.53 7.54 7.35 25.20 12.40 8.14 9.36 9.24 AgAuAl 19.37 9.39 7.87 7.88 7.70 25.48 12.72 8.48 9.70 9.58~ A^AuNb 19.47 9.50 7.98 7.99 7.81 25.57 12.83 8.59 9.81 9.69 A^Ru 19.07 9.05 7.53 7.54 7.35 25.20 12.40 8.14 9.36 9.24 9.9 AgRuCu 19.62 9.67 8.16 8.16 7.98 25.71 12.99 8.76 9.98 9.86 A ^RuTi 19.73 9.79 8.28 8.29 8.11 25.81 13.11 8.89 10.10 9.98 AgRuCr 19.31 9.32 7.80 7.81 7.63 25.42 12.66 8.41 9.63 9.51 A^RuTa 19.84 9.92 1 8.41 8.42 8.23 25.91 13.23 9.01 10.22 10.10. A^RuNi 20.27 10.40 8.90 8.91 8.73 26.31 13.70 9.50 10.70 10.58 . A^RuMo 19.63 9.68 8.17 8.18 7.99 25.72 1 3.01 8.78 9.99 9.87 A^RuPd 20.40 10.55 9.05 9.06 8.88 26.43 13.84 9.65 10.85 10.73 AgRuAl 19.10 9.08 7.56 7.57 7.39 25.23 12.43 8.17 9.39 9.27 A^RuNb 20.09 10.20 8.69 8.70 8.52 26.14 13.50 9.30 10.50 10.38 40NDA200104TW; P1P2000284TW 52 ----- ---Book---------· (Please read the notes on the back and fill out this page)
本紙張尺度適用中國國家標準(CNS)A4規格(210 X 297公釐) 1284746 A7 B7 五、發明說明(S3) 表12 IT〇/Ag合金 經濟部智慧財產局員工消費合作社印製 *材料 IT〇回火 ITO as*depo 波長 400:00 nm 波長 450.00 nm 波長 500.00 nm 波長 550.00 nm 波長 565.00 nm 波長 400.00 nm 波長 450.00 nm 波長 500.00 nm 波長 550.00 nm 波長 565.00 nm 吸收率 (%) 吸收率 (%) V 吸收率 (%) 吸收率 (%)、丨 吸收率· (%) ’ 吸收率 (%) 吸收率 (%): 吸收率 (%) 1吸收率· (%) 吸收率 (%) 純Ag 15.56 4.87 3.63 4.64 1.82 19.05 4.27 1.77 1.52 5.02 AgPd 18.06 7.69 6.49 7.47 4.73 21.55 7.23 4.81 4.57 7.95 AgPdCu 18.86 8.59 7.40 8.37 5.66 22.35 8.18 5.78 5.54 8.89 AgPdTi 21.46 11.52 10.37 11.31 8.68 24.95 11.26 8.94 8.71 11.94 AgPdCr 21.96 12.09 10.94 11.87 9.27 25.45 11.85 9.54 9.31 12.53 AgPdTa 22.06 12.20 11.05 11.99 9.38 25.55 11.97 9.67 9.44 12.65 AgPdMo 22.36 12.54 11.40 12.32 9.73 25.85 12.32 10.03 9.80 13.00 AgPdNi 22.14 12.42 11.15 12.11 9.54 25.74 12.21 9.77 9.65 12.86 AgPdAl 21.45 11.66 10.37 11.4 8.64 25.04 11.4 9.07 8.83 11.96 AgPdNb 21.54 11.75 10.46 11.53 8.82 25.14 11.52 9.19 8.92 12.14 AgAu 17.56 7.13 5.92 6.90 4.15 21.05 6.64 4.20 3.96 7.36 AgAuCu 17.90 7.51 6.30 7.29 4.54 21.39 7.04 4.61 4.37 7.76 AgAuTi 21.92 12.04 10.89 11.83 9.22 25.41 11.80 9.50 9.27 12.48 AgAuCr 21.80 11.91 10.76 11.69 9.08 25.29 11.66 9.35 9.12 12.34 AgAuTa 22.06 12.20 11.05 11.99 9.38 25.55 11.97 9.67 9.44 12.65 AgAuNi 22.36 12.54 11.40 12.32 9.73 25.85 12.32 10.03 9.80 13.00 AgAuMo 22.26 1^.43 ’11.28 '12.21 9.62 25.75 12.20 9.91 9.68 12.88 AgAuPd 21.36 11.41 10.25 11.19 8.57 24.85 11.14 8.82 8.58 11.83 AgAuAl 21.66 11.75 10.60 11.53 8.92 25.15 11.49 9.18 8.95 12.18 AgAuNb 21.76 11.86 10.71 11.65 9.03 25.25 11.61 9.30 9.07 12.30 AgRu 21.36 11.41 10.25 11.19 8.57 24.85 11.14 8.82 8.58 11.83 AgRuCu 21.91 12.03 10.88 11.82 9.21 25.40 11.79 9.48 * 9.25 12.47 AgRuTi 22.02 12.15 11.01 11.94 9.34 25.51 11.92 9.62 9.39 12.60 AgRuCr 21.60 11.68 10.53 11.47 8.85 25.09 11.42 9.11 8.88 12.11 AgRuTa 22.13 12.28 11.13 12.06 9.46 25.62 12.05 9.75 9.52 12.73 AgRuNi 22.56 12.76 11.62 12.55 9.96 26.05 12.56 10.27 10.04 13.23 AgRuMo 21.92 12.04 10.89 11.83 9.22 25.41 11.80 9.50 9.27 12.48 AgRuPd 22.69 12.91 11.77 12.70 10.12 26.18 12.71 10.43 10.20 13.39 AgRuAl 21.39 11.44 10.29 11.23 8.60 24.88 11.17 8.85 8.62 11.86 AgRuNb 22.38 12.56 11.42 12.35 9.75 25.87 12.34 10.05 9.82 13.02 .yH! 40NDA200104TW; P1P2000284TW 53 裝--------訂--------- f 本紙張尺度適用中國國家標準(CNS)A4規格(210 X 297公釐) 1284746 A7 B7 五、發明說明(se 表11顯示反射層連同本發明之覆蓋層時,光學吸收率 於回火後,相較於沒有覆蓋層的反射層降低許多。於表11 中本發明的In2〇3-15wt% Nb205覆蓋層,相較於表10中的 二氧化矽覆蓋層以及表12中的ITO覆蓋層,具有更低的 吸收率。 表13顯示三層層積體,包括基膜、反射層以及覆蓋層, 於約250°C回火後的光學特性,類似於表9至12中所示 者,層積體的接著性也如同表6中的層積體一樣好。三層 結構層積體無論於光學特性以及接著性都較優異。 三層層積體的光學特性並未因爲使用覆蓋層而變差, 相反的,當使用覆蓋層,其包括三氧化二銦爲主要成分以 及l-30wt%Nb2O5時,反射率反而增加1-6%,而且吸收率 於約250°C的回火後,反而降低。表14顯示,即使使用較 薄的覆蓋層,也能夠得到更增進的反射率以及良好的光學 特性。 ___________%年-— !- (請先閱讀背面之注意事項再填寫本頁) « — — — — I — •il. 經濟部智慧財產局員工消費合作社印製 40NDA200104TW: P1P2000284TW 54 本紙張尺度適用中國國家標準(CNS)A4規格(210 X 297公釐) 1284746 A7 B7 五、發明說明(ss) 表13吸收率(〇/〇)· 經濟部智慧財產局員工消費合作社印製This paper scale applies to China National Standard (CNS) A4 specification (210 X 297 mm) 1284746 A7 B7 V. Invention Description (S3) Table 12 IT〇/Ag Alloy Economics Department Intellectual Property Bureau Staff Consumer Cooperative Print*Material IT〇 Tempered ITO as*depo wavelength 400:00 nm wavelength 450.00 nm wavelength 500.00 nm wavelength 550.00 nm wavelength 565.00 nm wavelength 400.00 nm wavelength 450.00 nm wavelength 500.00 nm wavelength 550.00 nm wavelength 565.00 nm absorption rate (%) absorption rate (%) V absorption Rate (%) Absorption rate (%), 丨 absorption rate (%) 'Absorption rate (%) Absorption rate (%): Absorption rate (%) 1 Absorption rate · (%) Absorption rate (%) Pure Ag 15.56 4.87 3.63 4.64 1.82 19.05 4.27 1.77 1.52 5.02 AgPd 18.06 7.69 6.49 7.47 4.73 21.55 7.23 4.81 4.57 7.95 AgPdCu 18.86 8.59 7.40 8.37 5.66 22.35 8.18 5.78 5.54 8.89 AgPdTi 21.46 11.52 10.37 11.31 8.68 24.95 11.26 8.94 8.71 11.94 AgPdCr 21.96 12.09 10.94 11.87 9.27 25.45 11.85 9.54 9.31 12.53 AgPdTa 22.06 12.20 11.05 11.99 9.38 25.55 11.97 9.67 9.44 12.65 AgPdMo 22.36 12.54 11.40 12.32 9.73 25.85 12.32 10.03 9.80 13.00 AgPdNi 22.1 4 12.42 11.15 12.11 9.54 25.74 12.21 9.77 9.65 12.86 AgPdAl 21.45 11.66 10.37 11.4 8.64 25.04 11.4 9.07 8.83 11.96 AgPdNb 21.54 11.75 10.46 11.53 8.82 25.14 11.52 9.19 8.92 12.14 AgAu 17.56 7.13 5.92 6.90 4.15 21.05 6.64 4.20 3.96 7.36 AgAuCu 17.90 7.51 6.30 7.29 4.54 21.39 7.04 4.61 4.37 7.76 AgAuTi 21.92 12.04 10.89 11.83 9.22 25.41 11.80 9.50 9.27 12.48 AgAuCr 21.80 11.91 10.76 11.69 9.08 25.29 11.66 9.35 9.12 12.34 AgAuTa 22.06 12.20 11.05 11.99 9.38 25.55 11.97 9.67 9.44 12.65 AgAuNi 22.36 12.54 11.40 12.32 9.73 25.85 12.32 10.03 9.80 13.00 AgAuMo 22.26 1^.43 '11.28 '12.21 9.62 25.75 12.20 9.91 9.68 12.88 AgAuPd 21.36 11.41 10.25 11.19 8.57 24.85 11.14 8.82 8.58 11.83 AgAuAl 21.66 11.75 10.60 11.53 8.92 25.15 11.49 9.18 8.95 12.18 AgAuNb 21.76 11.86 10.71 11.65 9.03 25.25 11.61 9.30 9.07 12.30 AgRu 21.36 11.41 10.25 11.19 8.57 24.85 11.14 8.82 8.58 11.83 AgRuCu 21.91 12.03 10.88 11.82 9.21 25.40 11.79 9.48 * 9.25 12.47 AgRuTi 22.02 12.15 11.01 11.94 9.34 25.51 11. 92 9.62 9.39 12.60 AgRuCr 21.60 11.68 10.53 11.47 8.85 25.09 11.42 9.11 8.88 12.11 AgRuTa 22.13 12.28 11.13 12.06 9.46 25.62 12.05 9.75 9.52 12.73 AgRuNi 22.56 12.76 11.62 12.55 9.96 26.05 12.56 10.27 10.04 13.23 AgRuMo 21.92 12.04 10.89 11.83 9.22 25.41 11.80 9.50 9.27 12.48 AgRuPd 22.69 12.91 11.77 12.70 10.12 26.18 12.71 10.43 10.20 13.39 AgRuAl 21.39 11.44 10.29 11.23 8.60 24.88 11.17 8.85 8.62 11.86 AgRuNb 22.38 12.56 11.42 12.35 9.75 25.87 12.34 10.05 9.82 13.02 .yH! 40NDA200104TW; P1P2000284TW 53 Pack -------- Order -- ------- f This paper size applies to the Chinese National Standard (CNS) A4 specification (210 X 297 mm). 1284746 A7 B7 V. Inventive Note (se Table 11 shows the reflective layer together with the cover layer of the present invention, optics The absorption rate after tempering is much lower than that of the reflective layer without the cover layer. The In2〇3-15wt% Nb205 cap layer of the present invention in Table 11 has a lower absorption rate than the ceria cap layer in Table 10 and the ITO cap layer in Table 12. Table 13 shows the optical properties of the three-layer laminate including the base film, the reflective layer, and the cover layer after tempering at about 250 ° C. Similar to those shown in Tables 9 to 12, the adhesion of the laminate is also the same. The laminates in Table 6 are just as good. The three-layer structure laminate is excellent in both optical properties and adhesion. The optical properties of the three-layer laminate are not deteriorated by the use of the cover layer. Conversely, when a cover layer is used which includes indium trioxide as a main component and -30 wt% of Nb2O5, the reflectance is increased by 1-6. %, and the absorption rate is reduced after tempering at about 250 ° C. Table 14 shows that even with a thinner cover layer, a more improved reflectance and good optical properties can be obtained. ___________%Year-- !- (Please read the note on the back and fill out this page) « — — — — I — • il. Ministry of Economic Affairs Intellectual Property Office Staff Consumer Cooperative Print 40NDA200104TW: P1P2000284TW 54 This paper size applies to China Standard (CNS) A4 specification (210 X 297 mm) 1284746 A7 B7 V. Description of invention (ss) Table 13 Absorption rate (〇/〇) · Printed by the Ministry of Economic Affairs, Intellectual Property Bureau, Staff Consumer Cooperative
In90.r5wt% Nb2〇^ ①未加熱_ ② 150 〇C ③ 300°C 566 10.88 10.24 15.3 564 10.67 10.04 15.06 550 9.38 8.829 13.6 500 7.104 7.071 8.297 450 13.42 14.38 7.922 400 26.96 27.49 19.93 In?O,r10wt% Nb2〇5 ①未加熱 ② 150 〇C ③300 °C 566 11.13 12.39 13.11 564 10.91 12.16 12.88 550 9.639 10.71 11.42 500 7.113 7.166 7.236 450 12.72 11.8 9.97 400 27.29 26.6 24.28 In?0.r15wt°/〇 Nb〇Os (D未加熱 ②150 〇C ③300 〇C 566 15.97 18.42 20.29 564 15.74 18.17 20.04 550 14.32 16.69 18.63 500 9.059 10.57 12.36 450 7.363 7.168 7.21 400 17.19 16.56 13.33 40NDA200104TW; P1P2000284TW 55 本紙張尺度適用中國國家標準(CNS)A4規格(210 X 297公釐) ^------ (請先閱讀背面之注意事W:填寫本頁) 訂--------- ·# A7 五 1284746 ____B7 _____' 一 發明説明 表14 改變In20,Nb205覆蓋層厚度後反射層反射率的改變 度 5 nm 49 nm 1 70 nm 74 nm A inm] 加熱前 加熱後 加熱前 加熱後 加熱前加熱後 加熱後 1 556 92.99 91 85.61 8S.6S 83.15 91.32 95.27 554 92.91 90.85 85.62 88.69 83.18 91.29 95.28 552 92.84 90.74 85.63 88.67 83.2 91.39 95.28 ^ 550 92.92 90.74 85.69 88.72 83.35 91.5 95.33 500 90.88 87.82 85.22 88.37 83.56 91.47 95.13 450 85.71 79.83 82.88 85.02 80.93 87.77 93.56 400 74.72 70.22 80.63 84.96 79.47 85.35 83.23 85 : nm 90 : nm 100 nm λ 加熱前 加熱後 加熱前 加熱後 加熱前. 加熱後 556 86.8 93.4 S1.44 91.28 83.36 91.97 —554 86.78 93.36 81.47 91.29 83.3 91.97 552 86.81 93.37 81.5 91.39 83.31 92.04 _ 550 86.89 93.43 81.61 91.52 83.39 92.14 500 86.02 92.9S 81.96 92.18 81.36 92.04 450 81.58 88.19 78.5 88.9 71.91 87.01 400 74.11 81.17 6S 82.7 39.88 70.18 (請先閱讀背面之注意事項再填寫本頁)In90.r5wt% Nb2〇^1Unheated_ 2 150 〇C 3 300°C 566 10.88 10.24 15.3 564 10.67 10.04 15.06 550 9.38 8.829 13.6 500 7.104 7.071 8.297 450 13.42 14.38 7.922 400 26.96 27.49 19.93 In?O, r10wt% Nb2 〇5 1 not heated 2 150 〇C 3300 °C 566 11.13 12.39 13.11 564 10.91 12.16 12.88 550 9.639 10.71 11.42 500 7.113 7.166 7.236 450 12.72 11.8 9.97 400 27.29 26.6 24.28 In?0.r15wt°/〇Nb〇Os (D not Heating 2150 〇C 3300 〇C 566 15.97 18.42 20.29 564 15.74 18.17 20.04 550 14.32 16.69 18.63 500 9.059 10.57 12.36 450 7.363 7.168 7.21 400 17.19 16.56 13.33 40NDA200104TW; P1P2000284TW 55 This paper size applies to the Chinese National Standard (CNS) A4 specification (210 X 297 mm) ^------ (Please read the note on the back first: W: fill out this page) Order --------- · # A7 5128746 ____B7 _____' Description of the invention Table 14 Change In20 , Nb205 cover layer thickness after reflection layer reflectivity change degree 5 nm 49 nm 1 70 nm 74 nm A inm] heating before heating, heating before heating, heating before heating, heating after heating 1 556 92.99 91 85.61 8S.6S 83.15 91.32 95.27 554 92.91 90.85 85.62 88.69 83.18 91.29 95.28 552 92.84 90.74 85.63 88.67 83.2 91.39 95.28 ^ 550 92.92 90.74 85.69 88.72 83.35 91.5 95.33 500 90.88 87.82 85.22 88.37 83.56 91.47 95.13 450 85.71 79.83 82.88 85.02 80.93 87.77 93.56 400 74.72 70.22 80.63 84.96 79.47 85.35 83.23 85 : nm 90 : nm 100 nm λ Before heating, after heating, before heating, before heating. After heating 556 86.8 93.4 S1.44 91.28 83.36 91.97 — 554 86.78 93.36 81.47 91.29 83.3 91.97 552 86.81 93.37 81.5 91.39 83.31 92.04 _ 550 86.89 93.43 81.61 91.52 83.39 92.14 500 86.02 92.9S 81.96 92.18 81.36 92.04 450 81.58 88.19 78.5 88.9 71.91 87.01 400 74.11 81.17 6S 82.7 39.88 70.18 (Please read the notes on the back and fill out this page)
裝 經濟部智慧財產局員工消費合作社印製 以上實施例以及具體實施例係用以例示而非限制,而 且本發明不被限制於其中的細節,並且可以被修改而不脫 離附加申請專利範圍的範圍以及均等性內。The above-described embodiments and the specific embodiments of the invention are not limited to the details, and may be modified without departing from the scope of the appended claims. And within the equality.
40NDA200104TW; P1P2000284TW 本紙張尺度適用中國國家標準(CNS)A4規格(210 X 297公釐)40NDA200104TW; P1P2000284TW This paper size is applicable to China National Standard (CNS) A4 specification (210 X 297 mm)
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JP2000373602A JP4615701B2 (en) | 1999-12-07 | 2000-12-07 | Laminate using high heat-resistant reflective film |
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TW090107568A TWI284746B (en) | 2000-12-07 | 2001-03-29 | High heat resistant reflective coating, and laminated body using the reflective coating |
Country Status (11)
Country | Link |
---|---|
US (1) | US20020140885A1 (en) |
EP (1) | EP1213599A3 (en) |
KR (1) | KR20020045484A (en) |
CN (1) | CN1356563A (en) |
AU (1) | AU3139701A (en) |
BR (1) | BR0101321A (en) |
CA (1) | CA2341932A1 (en) |
MX (1) | MXPA01002967A (en) |
NO (1) | NO20011662L (en) |
PE (1) | PE20020629A1 (en) |
TW (1) | TWI284746B (en) |
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
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TWI462685B (en) * | 2010-01-19 | 2014-11-21 | Fih Hong Kong Ltd | Housing for electronic device |
Families Citing this family (19)
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KR100482676B1 (en) * | 2002-08-22 | 2005-04-13 | 솔라 어플라이드 머티리얼 테크놀로지 코포레이션 | Reflection film of reflection type flat panel display and alloy for sputtering target |
US20040210933A1 (en) * | 2003-01-07 | 2004-10-21 | Universal Electronics Inc. | User interface for a remote control application |
US20070037402A1 (en) * | 2003-02-05 | 2007-02-15 | Kazuyoshi Inoue | Method for manufacturing semi-transparent semi-reflective electrode substrate, reflective element substrate, method for manufacturing same, etching composition used for the method for manufacturing the reflective electrode substrate |
EP1464714A1 (en) * | 2003-02-13 | 2004-10-06 | W.C. Heraeus GmbH & Co. KG | Alloys and reflective layer and their use |
JP4371690B2 (en) | 2003-04-11 | 2009-11-25 | セントラル硝子株式会社 | Radio wave transmissive wavelength selective plate and method for producing the same |
JP2005029849A (en) * | 2003-07-07 | 2005-02-03 | Kobe Steel Ltd | Ag ALLOY REFLECTIVE FILM FOR REFLECTOR, REFLECTOR USING THE Ag ALLOY REFLECTIVE FILM, AND Ag ALLOY SPUTTERING TARGET FOR DEPOSITING THE Ag ALLOY REFLECTIVE FILM |
JP2006337770A (en) * | 2005-06-02 | 2006-12-14 | Central Glass Co Ltd | Surface mirror |
US7462560B2 (en) | 2005-08-11 | 2008-12-09 | United Microelectronics Corp. | Process of physical vapor depositing mirror layer with improved reflectivity |
KR20070059293A (en) * | 2005-12-06 | 2007-06-12 | 삼성전자주식회사 | Liquid crystal display, panel therefor, and manufacturing method thereof |
KR101340820B1 (en) * | 2008-09-23 | 2013-12-11 | 코오롱인더스트리 주식회사 | Plastic substrate |
EP2172991A1 (en) | 2008-10-03 | 2010-04-07 | Thomson Licensing, Inc. | OLED with a composite semi-transparent electrode to enhance light-extraction over a large range of wavelengths |
JP5969745B2 (en) * | 2010-09-10 | 2016-08-17 | 株式会社半導体エネルギー研究所 | Semiconductor device |
US20140003992A1 (en) * | 2011-03-11 | 2014-01-02 | Kf Licensing, Inc. | Tarnish-resistant sterling silver alloys |
US20150151281A1 (en) * | 2013-12-02 | 2015-06-04 | King Abdullah University Of Science And Technology | Multi-metallic nanomaterials from ni, ag, pd with pt's catalytic activity |
CN107815655A (en) * | 2017-10-27 | 2018-03-20 | 中山市汉庭照明科技有限公司 | A kind of method for preparing lower calorific value lamp protection cover |
CN107740998A (en) * | 2017-10-27 | 2018-02-27 | 中山市汉庭照明科技有限公司 | A kind of lower calorific value lamp protection cover |
SE543408C2 (en) * | 2018-10-22 | 2021-01-05 | Mimsi Mat Ab | Glazing and method of its production |
TWI729956B (en) * | 2020-10-28 | 2021-06-01 | 行政院原子能委員會核能研究所 | Solar control film with improved moisture resistance function and manufacturing method thereof |
KR20230094592A (en) * | 2021-12-21 | 2023-06-28 | 엠에스웨이 주식회사 | low registance conductive thin film and fabrication method for the same |
Family Cites Families (8)
Publication number | Priority date | Publication date | Assignee | Title |
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EP0733931B1 (en) * | 1995-03-22 | 2003-08-27 | Toppan Printing Co., Ltd. | Multilayered conductive film, and transparent electrode substrate and liquid crystal device using the same |
US5689321A (en) * | 1995-04-13 | 1997-11-18 | Canon Kabushiki Kaisha | Display apparatus |
JP3410667B2 (en) * | 1997-11-25 | 2003-05-26 | シャープ株式会社 | Reflective liquid crystal display device and method of manufacturing the same |
US6007901A (en) * | 1997-12-04 | 1999-12-28 | Cpfilms, Inc. | Heat reflecting fenestration products with color corrective and corrosion protective layers |
KR100805161B1 (en) * | 1999-03-15 | 2008-02-21 | 도판 인사츠 가부시키가이샤 | Electrode substrate for reflection type liquid crystal display device and reflection type liquid crystal display device |
JP3941322B2 (en) * | 1999-03-15 | 2007-07-04 | 凸版印刷株式会社 | Electrode substrate for reflective liquid crystal display device and reflective liquid crystal display device using the same |
JP4260972B2 (en) * | 1999-03-30 | 2009-04-30 | ソニー株式会社 | Optical recording medium |
KR100859921B1 (en) * | 1999-11-26 | 2008-09-23 | 가부시키가이샤 후루야긴조쿠 | Reflector |
-
2001
- 2001-03-14 EP EP01302385A patent/EP1213599A3/en not_active Withdrawn
- 2001-03-21 CA CA002341932A patent/CA2341932A1/en not_active Abandoned
- 2001-03-22 MX MXPA01002967A patent/MXPA01002967A/en unknown
- 2001-03-29 AU AU31397/01A patent/AU3139701A/en not_active Abandoned
- 2001-03-29 TW TW090107568A patent/TWI284746B/en not_active IP Right Cessation
- 2001-04-03 NO NO20011662A patent/NO20011662L/en not_active Application Discontinuation
- 2001-04-05 BR BR0101321-1A patent/BR0101321A/en not_active Application Discontinuation
- 2001-04-06 CN CN01109751A patent/CN1356563A/en active Pending
- 2001-04-06 US US09/828,572 patent/US20020140885A1/en not_active Abandoned
- 2001-04-06 KR KR1020010018350A patent/KR20020045484A/en not_active Application Discontinuation
- 2001-04-27 PE PE2001000381A patent/PE20020629A1/en not_active Application Discontinuation
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
TWI462685B (en) * | 2010-01-19 | 2014-11-21 | Fih Hong Kong Ltd | Housing for electronic device |
Also Published As
Publication number | Publication date |
---|---|
AU3139701A (en) | 2002-06-13 |
BR0101321A (en) | 2002-08-06 |
CA2341932A1 (en) | 2002-06-07 |
US20020140885A1 (en) | 2002-10-03 |
PE20020629A1 (en) | 2002-08-21 |
KR20020045484A (en) | 2002-06-19 |
EP1213599A2 (en) | 2002-06-12 |
NO20011662D0 (en) | 2001-04-03 |
NO20011662L (en) | 2002-06-10 |
CN1356563A (en) | 2002-07-03 |
MXPA01002967A (en) | 2004-07-30 |
EP1213599A3 (en) | 2004-08-18 |
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